Citral NOAEL Studies

COSMOS_DB 13 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
COSMOS_DB	LOAEL	500	ppm	mouse	oral	105 week	Chronic	REACH;PAFA; Toxicol. Sci., 71, 198-206; 2003
COSMOS_DB	LOAEL	1000	ppm	rat	oral	105 week	Chronic	REACH;PAFA; Toxicol. Sci., 71, 198-206; 2003
COSMOS_DB	NOAEL	120	mg/kg bw/day	mouse	oral	728 day	Carcinogenicity	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	125	mg/kg bw/day	rat	oral	10 day	Developmental	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	210	mg/kg bw/day	rat	oral	728 day	Carcinogenicity	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	534	mg/kg bw/day	mouse	oral	14 day	Short Term Toxicity	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	745	mg/kg bw/day	mouse	oral	98 day	Subchronic	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	820	mg/kg bw/day	rat	oral	98 day	Subchronic	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	1140	mg/kg bw/day	rat	oral	14 day	Short Term Toxicity	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	1500	mg/kg bw/day	rat	oral	5 day	Short Term Toxicity	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	2280	mg/kg bw/day	rat	oral	14 day	Short Term Toxicity	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	2400	mg/kg bw/day	rat	oral	10 day	Short Term Toxicity	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study
COSMOS_DB	NOAEL	8550	mg/kg bw/day	mouse	oral	14 day	Short Term Toxicity	US FDA CFSAN PAFA; US FDA CFSAN PAFA Study

ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip 63 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	345	mg/kg bw/day	rat	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=798952db-73e1-49d9-82a0-d426d8c98a4f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=798952db-73e1-49d9-82a0-d426d8c98a4f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=f1622fee-a327-47d2-986f-6fdf20323add
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	335	mg/kg bw/day	rat	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=798952db-73e1-49d9-82a0-d426d8c98a4f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=798952db-73e1-49d9-82a0-d426d8c98a4f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=2bc30d85-9745-4afa-bcd9-6ffeb11c531b
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	210	mg/kg bw/day	rat	oral: feed	-	carcinogenicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=f883dd97-b2af-4c04-b04b-716403180356_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=f883dd97-b2af-4c04-b04b-716403180356/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=Carcinogenicity; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=d66f3eb6-ffef-43b7-bd1a-4b71a0f99a81
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	60	mg/kg bw/day	rat	oral: gavage	-	developmental toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=89ae5ca4-2be3-43c9-ae06-0789b2dea0cb_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=89ae5ca4-2be3-43c9-ae06-0789b2dea0cb/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=DevelopmentalToxicityTeratogenicity; literature=Name=Unnamed; ReferenceYear=1995; basis=other:; key_result=true; entry_uuid=c93f2316-b49d-4bbd-9d2e-190fed7ada41
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	745	mg/kg bw/day	mouse	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=7a5905b2-93c1-4e44-b222-a87231877e2e_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=7a5905b2-93c1-4e44-b222-a87231877e2e/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=ac0809e6-35ac-4ff7-b40b-91776e408045
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	790	mg/kg bw/day	mouse	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=7a5905b2-93c1-4e44-b222-a87231877e2e_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=7a5905b2-93c1-4e44-b222-a87231877e2e/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=7d5dee5e-d4b3-439f-af3b-dc19b9b658f8
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	120	mg/kg bw/day	mouse	oral: feed	-	carcinogenicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=06c9da77-bd84-4c95-9000-7123e1798b84_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=06c9da77-bd84-4c95-9000-7123e1798b84/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=Carcinogenicity; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=61622051-d75d-4432-b088-18576997e955
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	1140	mg/kg bw/day	rat	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=5be0e470-c923-46fc-b774-f0f28d6ff51f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=5be0e470-c923-46fc-b774-f0f28d6ff51f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=03da6358-9305-413f-bbe2-87a6bae07787
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	8850	mg/kg bw/day	mouse	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=884e5426-d232-4653-8294-99000c464d7b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=884e5426-d232-4653-8294-99000c464d7b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=06ca5b3f-5339-461c-80e1-22b48bb4d9b4
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	1068	mg/kg bw/day	mouse	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=1e03d706-2e21-49f9-af01-f84c4777afbc_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=1e03d706-2e21-49f9-af01-f84c4777afbc/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=5670a079-f1a7-4a59-b83d-1d1991b931ac
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	345	mg/kg bw/day	rat	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=798952db-73e1-49d9-82a0-d426d8c98a4f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=798952db-73e1-49d9-82a0-d426d8c98a4f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=f1622fee-a327-47d2-986f-6fdf20323add
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	335	mg/kg bw/day	rat	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=798952db-73e1-49d9-82a0-d426d8c98a4f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=798952db-73e1-49d9-82a0-d426d8c98a4f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=2bc30d85-9745-4afa-bcd9-6ffeb11c531b
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	210	mg/kg bw/day	rat	oral: feed	-	carcinogenicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=f883dd97-b2af-4c04-b04b-716403180356_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=f883dd97-b2af-4c04-b04b-716403180356/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=Carcinogenicity; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=d66f3eb6-ffef-43b7-bd1a-4b71a0f99a81
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	60	mg/kg bw/day	rat	oral: gavage	-	developmental toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=89ae5ca4-2be3-43c9-ae06-0789b2dea0cb_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=89ae5ca4-2be3-43c9-ae06-0789b2dea0cb/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=DevelopmentalToxicityTeratogenicity; literature=Name=Unnamed; ReferenceYear=1995; basis=other:; key_result=true; entry_uuid=c93f2316-b49d-4bbd-9d2e-190fed7ada41
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	745	mg/kg bw/day	mouse	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=7a5905b2-93c1-4e44-b222-a87231877e2e_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=7a5905b2-93c1-4e44-b222-a87231877e2e/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=ac0809e6-35ac-4ff7-b40b-91776e408045
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	790	mg/kg bw/day	mouse	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=7a5905b2-93c1-4e44-b222-a87231877e2e_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=7a5905b2-93c1-4e44-b222-a87231877e2e/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=7d5dee5e-d4b3-439f-af3b-dc19b9b658f8
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	120	mg/kg bw/day	mouse	oral: feed	-	carcinogenicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=06c9da77-bd84-4c95-9000-7123e1798b84_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=06c9da77-bd84-4c95-9000-7123e1798b84/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=Carcinogenicity; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=61622051-d75d-4432-b088-18576997e955
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	1140	mg/kg bw/day	rat	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=5be0e470-c923-46fc-b774-f0f28d6ff51f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=5be0e470-c923-46fc-b774-f0f28d6ff51f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=03da6358-9305-413f-bbe2-87a6bae07787
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	8850	mg/kg bw/day	mouse	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=884e5426-d232-4653-8294-99000c464d7b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=884e5426-d232-4653-8294-99000c464d7b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=06ca5b3f-5339-461c-80e1-22b48bb4d9b4
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	1068	mg/kg bw/day	mouse	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=1e03d706-2e21-49f9-af01-f84c4777afbc_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=1e03d706-2e21-49f9-af01-f84c4777afbc/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=5670a079-f1a7-4a59-b83d-1d1991b931ac
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	345	mg/kg bw/day	rat	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=798952db-73e1-49d9-82a0-d426d8c98a4f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=798952db-73e1-49d9-82a0-d426d8c98a4f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=f1622fee-a327-47d2-986f-6fdf20323add
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	335	mg/kg bw/day	rat	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=798952db-73e1-49d9-82a0-d426d8c98a4f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=798952db-73e1-49d9-82a0-d426d8c98a4f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=2bc30d85-9745-4afa-bcd9-6ffeb11c531b
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	210	mg/kg bw/day	rat	oral: feed	-	carcinogenicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=f883dd97-b2af-4c04-b04b-716403180356_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=f883dd97-b2af-4c04-b04b-716403180356/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=Carcinogenicity; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=d66f3eb6-ffef-43b7-bd1a-4b71a0f99a81
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	60	mg/kg bw/day	rat	oral: gavage	-	developmental toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=89ae5ca4-2be3-43c9-ae06-0789b2dea0cb_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=89ae5ca4-2be3-43c9-ae06-0789b2dea0cb/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=DevelopmentalToxicityTeratogenicity; literature=Name=Unnamed; ReferenceYear=1995; basis=other:; key_result=true; entry_uuid=c93f2316-b49d-4bbd-9d2e-190fed7ada41
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	745	mg/kg bw/day	mouse	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=7a5905b2-93c1-4e44-b222-a87231877e2e_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=7a5905b2-93c1-4e44-b222-a87231877e2e/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=ac0809e6-35ac-4ff7-b40b-91776e408045
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	790	mg/kg bw/day	mouse	oral: feed	-	sub-chronic toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=7a5905b2-93c1-4e44-b222-a87231877e2e_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=7a5905b2-93c1-4e44-b222-a87231877e2e/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=7d5dee5e-d4b3-439f-af3b-dc19b9b658f8
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	120	mg/kg bw/day	mouse	oral: feed	-	carcinogenicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=06c9da77-bd84-4c95-9000-7123e1798b84_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=06c9da77-bd84-4c95-9000-7123e1798b84/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=Carcinogenicity; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=61622051-d75d-4432-b088-18576997e955
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	1140	mg/kg bw/day	rat	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=5be0e470-c923-46fc-b774-f0f28d6ff51f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=5be0e470-c923-46fc-b774-f0f28d6ff51f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=03da6358-9305-413f-bbe2-87a6bae07787
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	8850	mg/kg bw/day	mouse	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=884e5426-d232-4653-8294-99000c464d7b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=884e5426-d232-4653-8294-99000c464d7b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=06ca5b3f-5339-461c-80e1-22b48bb4d9b4
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	LOAEL	1068	mg/kg bw/day	mouse	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=1e03d706-2e21-49f9-af01-f84c4777afbc_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=1e03d706-2e21-49f9-af01-f84c4777afbc/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=5670a079-f1a7-4a59-b83d-1d1991b931ac
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	25	mg/kg bw/day	rat	oral: gavage	-	extended one-generation reproductive toxicity - with F2 generation (Cohorts 1A, and 1B with extension)	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=ec677cc6-4556-4dcd-80c7-947e311eae4b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=ec677cc6-4556-4dcd-80c7-947e311eae4b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2021; ReportDate=2021-04-30; basis=histopathology: non-neoplastic; key_result=false; entry_uuid=7edb035c-dacb-4e4b-90cb-91899f7e8e74
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	250	mg/kg bw/day	rat	oral: gavage	-	extended one-generation reproductive toxicity - with F2 generation (Cohorts 1A, and 1B with extension)	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=ec677cc6-4556-4dcd-80c7-947e311eae4b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=ec677cc6-4556-4dcd-80c7-947e311eae4b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2021; ReportDate=2021-04-30; basis=other:; key_result=false; entry_uuid=43dcf060-5148-4495-b2ab-ab08800667b1
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	100	mg/kg bw/day	rat	oral: feed	-	carcinogenicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=f883dd97-b2af-4c04-b04b-716403180356_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=f883dd97-b2af-4c04-b04b-716403180356/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=Carcinogenicity; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=6d334f34-392c-4821-bc9c-1b1e257a26ba
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	60	mg/kg bw/day	rabbit	oral: gavage	-	developmental toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=bc45b05a-be0e-4727-b215-32651d4aab1c_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=bc45b05a-be0e-4727-b215-32651d4aab1c/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=DevelopmentalToxicityTeratogenicity; literature=Name=Unnamed; ReferenceYear=2016; basis=body weight and weight gain; key_result=true; entry_uuid=6777e7bf-f8bd-4a24-ab23-ec76eb34a24f
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	200	mg/kg bw/day	rat	oral: gavage	-	one-generation reproductive toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=67074313-497d-4c4b-8d8e-69168153e76b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=67074313-497d-4c4b-8d8e-69168153e76b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2002; basis=other:; key_result=false; entry_uuid=c8679084-da2f-40a6-9c6f-e8842d08af4d
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	1000	mg/kg bw/day	rat	oral: gavage	-	one-generation reproductive toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=67074313-497d-4c4b-8d8e-69168153e76b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=67074313-497d-4c4b-8d8e-69168153e76b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2002; basis=other:; key_result=false; entry_uuid=ab99bdc4-dfef-439a-9fc2-aacefea4e1ce
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	570	mg/kg bw/day	rat	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=5be0e470-c923-46fc-b774-f0f28d6ff51f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=5be0e470-c923-46fc-b774-f0f28d6ff51f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=304c9167-bf81-4172-9064-306e5a92b451
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	1140	mg/kg bw/day	rat	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=b843c4d2-c0e5-4fa5-8001-a53fe28249be
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	4275	mg/kg bw/day	mouse	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=884e5426-d232-4653-8294-99000c464d7b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=884e5426-d232-4653-8294-99000c464d7b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=94b89980-06a1-45a7-b765-282b9dab75bd
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	534	mg/kg bw/day	mouse	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=1e03d706-2e21-49f9-af01-f84c4777afbc_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=1e03d706-2e21-49f9-af01-f84c4777afbc/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=149fb423-1213-4453-9cf9-8a601b1a7a74
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	25	mg/kg bw/day	rat	oral: gavage	-	extended one-generation reproductive toxicity - with F2 generation (Cohorts 1A, and 1B with extension)	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=ec677cc6-4556-4dcd-80c7-947e311eae4b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=ec677cc6-4556-4dcd-80c7-947e311eae4b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2021; ReportDate=2021-04-30; basis=histopathology: non-neoplastic; key_result=false; entry_uuid=7edb035c-dacb-4e4b-90cb-91899f7e8e74
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	250	mg/kg bw/day	rat	oral: gavage	-	extended one-generation reproductive toxicity - with F2 generation (Cohorts 1A, and 1B with extension)	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=ec677cc6-4556-4dcd-80c7-947e311eae4b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=ec677cc6-4556-4dcd-80c7-947e311eae4b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2021; ReportDate=2021-04-30; basis=other:; key_result=false; entry_uuid=43dcf060-5148-4495-b2ab-ab08800667b1
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	100	mg/kg bw/day	rat	oral: feed	-	carcinogenicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=f883dd97-b2af-4c04-b04b-716403180356_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=f883dd97-b2af-4c04-b04b-716403180356/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=Carcinogenicity; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=6d334f34-392c-4821-bc9c-1b1e257a26ba
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	60	mg/kg bw/day	rabbit	oral: gavage	-	developmental toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=bc45b05a-be0e-4727-b215-32651d4aab1c_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=bc45b05a-be0e-4727-b215-32651d4aab1c/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=DevelopmentalToxicityTeratogenicity; literature=Name=Unnamed; ReferenceYear=2016; basis=body weight and weight gain; key_result=true; entry_uuid=6777e7bf-f8bd-4a24-ab23-ec76eb34a24f
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	200	mg/kg bw/day	rat	oral: gavage	-	one-generation reproductive toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=67074313-497d-4c4b-8d8e-69168153e76b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=67074313-497d-4c4b-8d8e-69168153e76b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2002; basis=other:; key_result=false; entry_uuid=c8679084-da2f-40a6-9c6f-e8842d08af4d
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	1000	mg/kg bw/day	rat	oral: gavage	-	one-generation reproductive toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=67074313-497d-4c4b-8d8e-69168153e76b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=67074313-497d-4c4b-8d8e-69168153e76b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2002; basis=other:; key_result=false; entry_uuid=ab99bdc4-dfef-439a-9fc2-aacefea4e1ce
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	570	mg/kg bw/day	rat	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=5be0e470-c923-46fc-b774-f0f28d6ff51f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=5be0e470-c923-46fc-b774-f0f28d6ff51f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=304c9167-bf81-4172-9064-306e5a92b451
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	1140	mg/kg bw/day	rat	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=b843c4d2-c0e5-4fa5-8001-a53fe28249be
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	4275	mg/kg bw/day	mouse	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=884e5426-d232-4653-8294-99000c464d7b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=884e5426-d232-4653-8294-99000c464d7b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=94b89980-06a1-45a7-b765-282b9dab75bd
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	534	mg/kg bw/day	mouse	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=1e03d706-2e21-49f9-af01-f84c4777afbc_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=1e03d706-2e21-49f9-af01-f84c4777afbc/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=149fb423-1213-4453-9cf9-8a601b1a7a74
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	25	mg/kg bw/day	rat	oral: gavage	-	extended one-generation reproductive toxicity - with F2 generation (Cohorts 1A, and 1B with extension)	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=ec677cc6-4556-4dcd-80c7-947e311eae4b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=ec677cc6-4556-4dcd-80c7-947e311eae4b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2021; ReportDate=2021-04-30; basis=histopathology: non-neoplastic; key_result=false; entry_uuid=7edb035c-dacb-4e4b-90cb-91899f7e8e74
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	250	mg/kg bw/day	rat	oral: gavage	-	extended one-generation reproductive toxicity - with F2 generation (Cohorts 1A, and 1B with extension)	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=ec677cc6-4556-4dcd-80c7-947e311eae4b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=ec677cc6-4556-4dcd-80c7-947e311eae4b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2021; ReportDate=2021-04-30; basis=other:; key_result=false; entry_uuid=43dcf060-5148-4495-b2ab-ab08800667b1
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	100	mg/kg bw/day	rat	oral: feed	-	carcinogenicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=f883dd97-b2af-4c04-b04b-716403180356_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=f883dd97-b2af-4c04-b04b-716403180356/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=Carcinogenicity; literature=Name=Unnamed; ReferenceYear=2003; basis=other:; key_result=false; entry_uuid=6d334f34-392c-4821-bc9c-1b1e257a26ba
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	60	mg/kg bw/day	rabbit	oral: gavage	-	developmental toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=bc45b05a-be0e-4727-b215-32651d4aab1c_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=bc45b05a-be0e-4727-b215-32651d4aab1c/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=DevelopmentalToxicityTeratogenicity; literature=Name=Unnamed; ReferenceYear=2016; basis=body weight and weight gain; key_result=true; entry_uuid=6777e7bf-f8bd-4a24-ab23-ec76eb34a24f
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	200	mg/kg bw/day	rat	oral: gavage	-	one-generation reproductive toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=67074313-497d-4c4b-8d8e-69168153e76b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=67074313-497d-4c4b-8d8e-69168153e76b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2002; basis=other:; key_result=false; entry_uuid=c8679084-da2f-40a6-9c6f-e8842d08af4d
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	1000	mg/kg bw/day	rat	oral: gavage	-	one-generation reproductive toxicity	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=67074313-497d-4c4b-8d8e-69168153e76b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=67074313-497d-4c4b-8d8e-69168153e76b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=ToxicityReproduction; literature=Name=Unnamed; ReferenceYear=2002; basis=other:; key_result=false; entry_uuid=ab99bdc4-dfef-439a-9fc2-aacefea4e1ce
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	570	mg/kg bw/day	rat	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=5be0e470-c923-46fc-b774-f0f28d6ff51f_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=5be0e470-c923-46fc-b774-f0f28d6ff51f/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=304c9167-bf81-4172-9064-306e5a92b451
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	1140	mg/kg bw/day	rat	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=b843c4d2-c0e5-4fa5-8001-a53fe28249be
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	4275	mg/kg bw/day	mouse	oral: feed	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=884e5426-d232-4653-8294-99000c464d7b_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=884e5426-d232-4653-8294-99000c464d7b/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=94b89980-06a1-45a7-b765-282b9dab75bd
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOAEL	534	mg/kg bw/day	mouse	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=1e03d706-2e21-49f9-af01-f84c4777afbc_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=1e03d706-2e21-49f9-af01-f84c4777afbc/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; key_result=false; entry_uuid=149fb423-1213-4453-9cf9-8a601b1a7a74
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOEL	2280	mg/kg bw/day	rat	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=6cc07cdb-5de9-4678-93e7-af791cbe497b
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOEL	2280	mg/kg bw/day	rat	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=6cc07cdb-5de9-4678-93e7-af791cbe497b
ECHA_REACH_reach_study_results_dossiers_23-05-2023.zip	NOEL	2280	mg/kg bw/day	rat	oral: gavage	-	short-term repeated dose toxicity: oral	dossier=f41a0d17-2971-4f89-9c27-d3145a15c959.i6z; document=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac_f41a0d17-2971-4f89-9c27-d3145a15c959.i6d; document_key=be9e88aa-aeef-4cbf-84ad-bfedc7ba1fac/f41a0d17-2971-4f89-9c27-d3145a15c959; document_subtype=RepeatedDoseToxicityOral; literature=Name=Unnamed; ReferenceYear=1993; basis=other:; key_result=false; entry_uuid=6cc07cdb-5de9-4678-93e7-af791cbe497b

EFSA_OpenFoodTox_EFSA_ReferencePoints.xlsx 6 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
EFSA_OpenFoodTox_EFSA_ReferencePoints.xlsx	NOAEL	=6	mg/kg bw	Unspecified	-	-	other	EFSA CEF - 2010 - OutputID 2050 - Scientific Opinion on Flavouring Group Evaluation 72 (FGE.72): Consideration of aliphatic, branched-chain saturated and unsaturated alcohols, aldehydes, acids, and related esters evaluated by the JECFA (61st meeting) structurally related to branched- and straight-chain unsaturated carboxylic acids. Esters of these and straight-chain aliphatic saturated alcohols evaluated by EFSA in FGE.05Rev2 (2010). - doi:10.2903/j.efsa.2010.1402
EFSA_OpenFoodTox_EFSA_ReferencePoints.xlsx	NOAEL	=60	mg/kg bw	Unspecified	-	-	other	EFSA CEF - 2013 - OutputID 2375 - Scientific Opinion on Flavouring Group Evaluation 72, Revision 1 (FGE.72Rev1): Consideration of aliphatic, branched-chain saturated and unsaturated alcohols, aldehydes, acids, and related esters evaluated by the JECFA (61st meeting) structurally related to branched- and straight-chain unsaturated carboxylic acids, esters of these and straight-chain aliphatic saturated alcohols evaluated by EFSA in FGE.05Rev2. EFSA Panel on Food Contact Materials, Enzymes, Flavourings and Processing Aids (CEF) - doi:10.2903/j.efsa.2013.3392
EFSA_OpenFoodTox_EFSA_ReferencePoints.xlsx	NOAEL	=345	mg/kg bw/day	Rat	oral: feed	98 days	subchronic	EFSA FEEDAP - 2016 - OutputID 2841 - histopathology non neoplastic - nephrotoxicity - Safety and efficacy of alpha,beta-unsaturated straight-chain and branched-chain aliphatic primary alcohols, aldehydes, acids and esters belonging to chemical group 3 when used as flavourings for all animal species - doi:10.2903/j.efsa.2016.4512
EFSA_OpenFoodTox_EFSA_ReferencePoints.xlsx	NOAEL	=6	mg/kg bw	Unspecified	-	-	other	EFSA CEF - 2010 - OutputID 2050 - Scientific Opinion on Flavouring Group Evaluation 72 (FGE.72): Consideration of aliphatic, branched-chain saturated and unsaturated alcohols, aldehydes, acids, and related esters evaluated by the JECFA (61st meeting) structurally related to branched- and straight-chain unsaturated carboxylic acids. Esters of these and straight-chain aliphatic saturated alcohols evaluated by EFSA in FGE.05Rev2 (2010). - doi:10.2903/j.efsa.2010.1402
EFSA_OpenFoodTox_EFSA_ReferencePoints.xlsx	NOAEL	=60	mg/kg bw	Unspecified	-	-	other	EFSA CEF - 2013 - OutputID 2375 - Scientific Opinion on Flavouring Group Evaluation 72, Revision 1 (FGE.72Rev1): Consideration of aliphatic, branched-chain saturated and unsaturated alcohols, aldehydes, acids, and related esters evaluated by the JECFA (61st meeting) structurally related to branched- and straight-chain unsaturated carboxylic acids, esters of these and straight-chain aliphatic saturated alcohols evaluated by EFSA in FGE.05Rev2. EFSA Panel on Food Contact Materials, Enzymes, Flavourings and Processing Aids (CEF) - doi:10.2903/j.efsa.2013.3392
EFSA_OpenFoodTox_EFSA_ReferencePoints.xlsx	NOAEL	=345	mg/kg bw/day	Rat	oral: feed	98 days	subchronic	EFSA FEEDAP - 2016 - OutputID 2841 - histopathology non neoplastic - nephrotoxicity - Safety and efficacy of alpha,beta-unsaturated straight-chain and branched-chain aliphatic primary alcohols, aldehydes, acids and esters belonging to chemical group 3 when used as flavourings for all animal species - doi:10.2903/j.efsa.2016.4512

EFSA_OpenFoodTox_EFSA_ReferenceValues.xlsx 2 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
EFSA_OpenFoodTox_EFSA_ReferenceValues.xlsx	ADI (group)	=0.5	mg/kg bw/day	Consumers	-	-	ADI (group)	EFSA FEEDAP - 2011 - OutputID 248 - Consumers - Scientific Opinion on the safety and efficacy of FRESTA F for weaned piglets - doi:10.2903/j.efsa.2011.2139
EFSA_OpenFoodTox_EFSA_ReferenceValues.xlsx	ADI (group)	=0.5	mg/kg bw/day	Consumers	-	-	ADI (group)	EFSA FEEDAP - 2011 - OutputID 248 - Consumers - Scientific Opinion on the safety and efficacy of FRESTA F for weaned piglets - doi:10.2903/j.efsa.2011.2139

INCHEM_WHO_jecfa_jecmono_v52je15 40 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
INCHEM_WHO_jecfa_jecmono_v52je15	ADI	~0.15	mg/kg bw/day	-	-	-	Health guidance value	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=357b7ff77ce81248; raw_unit=mg/kg bw; context=It was also noted that even the total combined daily intake of all 32 flavouring agents under evaluation (approximately 0.15 mg/kg bw in Europe and the USA) is less than the group ADI.
INCHEM_WHO_jecfa_jecmono_v52je15	ADI	~0.15	mg/kg bw/day	-	-	-	Health guidance value	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=357b7ff77ce81248; raw_unit=mg/kg bw; context=It was also noted that even the total combined daily intake of all 32 flavouring agents under evaluation (approximately 0.15 mg/kg bw in Europe and the USA) is less than the group ADI.
INCHEM_WHO_jecfa_jecmono_v52je15	ADI	=0.5	mg/kg bw/day	-	-	short-term	Health guidance value	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=b712630060595c84; raw_unit=mg/kg bw; context=A group ADI of 0–0.5 mg/kg bw, expressed as citral, was established for citral, geranyl acetate, citronellol, linalool, and linalyl acetate on the basis of their clearly-defined metabolism, rapid excretion, and low toxicity in short-term studies.
INCHEM_WHO_jecfa_jecmono_v52je15	ADI	=0.5	mg/kg bw/day	-	-	short-term	Health guidance value	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=b712630060595c84; raw_unit=mg/kg bw; context=A group ADI of 0–0.5 mg/kg bw, expressed as citral, was established for citral, geranyl acetate, citronellol, linalool, and linalyl acetate on the basis of their clearly-defined metabolism, rapid excretion, and low toxicity in short-term studies.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=1.36	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=986eb772a3803866; raw_unit=mg/kg bw per day; context=The NOEL for 2,4-dimethyl-2-pentenoic acid was 1.36 mg/kg bw per day in male rats and 1.55 mg/kg bw per day in female rats, the highest dose tested (Posternak, 1968). (iii) dl-Citronellol (No.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=1.36	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=986eb772a3803866; raw_unit=mg/kg bw per day; context=The NOEL for 2,4-dimethyl-2-pentenoic acid was 1.36 mg/kg bw per day in male rats and 1.55 mg/kg bw per day in female rats, the highest dose tested (Posternak, 1968). (iii) dl-Citronellol (No.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=50	mg/kg bw/day	-	-	-	Developmental toxicity	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=df1d5b3a050ce928; raw_unit=mg/kg bw per day; context=The NOEL for citral was 50 mg/kg bw per day for maternal toxicity and 160 mg/kg bw per day for developmental toxicity (Hoberman et al., 1989).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=50	mg/kg bw/day	-	-	-	Developmental toxicity	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=df1d5b3a050ce928; raw_unit=mg/kg bw per day; context=The NOEL for citral was 50 mg/kg bw per day for maternal toxicity and 160 mg/kg bw per day for developmental toxicity (Hoberman et al., 1989).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=51	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=81bd93ff31018159; raw_unit=mg/kg bw per day; context=The NOEL for citronellol was 51 mg/kg bw per day in male rats and 56 mg/kg bw per day in female rats, the highest dose tested (Oser, 1958b). (iv) Geraniol (No.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=51	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=81bd93ff31018159; raw_unit=mg/kg bw per day; context=The NOEL for citronellol was 51 mg/kg bw per day in male rats and 56 mg/kg bw per day in female rats, the highest dose tested (Oser, 1958b). (iv) Geraniol (No.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=52	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=2a560ce688631c4e; raw_unit=mg/kg bw per day; context=The NOEL for citral was 52 mg/kg bw per day for male rats and 60 mg/kg bw per day for female rats, the highest dose tested (Oser, 1958a).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=52	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=2a560ce688631c4e; raw_unit=mg/kg bw per day; context=The NOEL for citral was 52 mg/kg bw per day for male rats and 60 mg/kg bw per day for female rats, the highest dose tested (Oser, 1958a).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=60	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=9521f717efae07ee; raw_unit=mg/kg bw per day; context=The NOEL of 60 mg/kg bw per day (National Toxicology Program, 2003) for citral is >500 times more than the estimated daily intakes of 114 mg/kg bw in Europe and 117 mg/kg bw in the USA when used a flavouring agent See note 4 * 8-Ocimenyl acetate 1226 197098-61-6 No Europe:
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=60	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=9521f717efae07ee; raw_unit=mg/kg bw per day; context=The NOEL of 60 mg/kg bw per day (National Toxicology Program, 2003) for citral is >500 times more than the estimated daily intakes of 114 mg/kg bw in Europe and 117 mg/kg bw in the USA when used a flavouring agent See note 4 * 8-Ocimenyl acetate 1226 197098-61-6 No Europe:
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=100	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=e8479535bdfe79db; raw_unit=mg/kg bw per day; context=The NOEL for citral was 100 mg/kg bw per day on the basis of decreased body weights (in particular in females) (National Toxicology Program, 2003). (d) Genotoxicity Testing for genotoxicity has been carried out with six of the 32 flavouring agents in this group (Nos 1209, 1219, 1220, 1223, 1225, and 123
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=100	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=e8479535bdfe79db; raw_unit=mg/kg bw per day; context=The NOEL for citral was 100 mg/kg bw per day on the basis of decreased body weights (in particular in females) (National Toxicology Program, 2003). (d) Genotoxicity Testing for genotoxicity has been carried out with six of the 32 flavouring agents in this group (Nos 1209, 1219, 1220, 1223, 1225, and 123
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=125	mg/kg bw/day	-	-	-	Developmental toxicity	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=ea19e09729190fcd; raw_unit=mg/kg bw per day; context=On this basis, the NOEL for citral was 125 mg/kg bw per day for maternal toxicity and 250 mg/kg bw per day for developmental toxicity (Vollmuth et al., 1990).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=125	mg/kg bw/day	-	-	-	Developmental toxicity	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=ea19e09729190fcd; raw_unit=mg/kg bw per day; context=On this basis, the NOEL for citral was 125 mg/kg bw per day for maternal toxicity and 250 mg/kg bw per day for developmental toxicity (Vollmuth et al., 1990).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=142.857142857143	mg/kg bw/day	Rat	oral	5 days	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=b2736008122eadb9; raw_unit=mg/kg bw per day; unit_normalization=converted from weekly dose; context=In groups of 50 male and 50 female Fischer 344/N rats given this mixture at a dose of 0, 1000 or 2000 mg/kg bw per day, 5 days per week for 103 weeks by gavage, the NOEL for the mixture was 1000 mg/kg bw per day, corresponding to an estimated dose of 710 mg/kg bw per day of geranyl acetate and 290 mg/kg bw per day of citronellyl acetate. (i) Citral (No.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=142.857142857143	mg/kg bw/day	Rat	oral	5 days	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=b2736008122eadb9; raw_unit=mg/kg bw per day; unit_normalization=converted from weekly dose; context=In groups of 50 male and 50 female Fischer 344/N rats given this mixture at a dose of 0, 1000 or 2000 mg/kg bw per day, 5 days per week for 103 weeks by gavage, the NOEL for the mixture was 1000 mg/kg bw per day, corresponding to an estimated dose of 710 mg/kg bw per day of geranyl acetate and 290 mg/kg bw per day of citronellyl acetate. (i) Citral (No.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	<345	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=6e68b40be4c28ee2; raw_unit=mg/kg bw per day; context=The NOEL for citral was <345 mg/kg bw per day in male rats, on the basis of nephropathy.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	<345	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=6e68b40be4c28ee2; raw_unit=mg/kg bw per day; context=The NOEL for citral was <345 mg/kg bw per day in male rats, on the basis of nephropathy.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=500	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=39378074f773814b; raw_unit=mg/kg bw per day; context=The NOEL for citral was 500 mg/kg bw per day, the highest dose tested (Hagan et al., 1967).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=500	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=39378074f773814b; raw_unit=mg/kg bw per day; context=The NOEL for citral was 500 mg/kg bw per day, the highest dose tested (Hagan et al., 1967).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	<534	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=461043bc731e7211; raw_unit=mg/kg bw per day; context=The NOEL was <534 mg/kg bw per day on the basis of increased liver weights.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	<534	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=461043bc731e7211; raw_unit=mg/kg bw per day; context=The NOEL was <534 mg/kg bw per day on the basis of increased liver weights.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=570	mg/kg bw/day	-	oral	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=f413a3a2971ee2a0; raw_unit=mg/kg bw per day; context=The NOEL for citral was 570 mg/kg bw per day on the basis of nasal lesions and decreased body weights (Dieter et al., 1993).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=570	mg/kg bw/day	-	oral	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=f413a3a2971ee2a0; raw_unit=mg/kg bw per day; context=The NOEL for citral was 570 mg/kg bw per day on the basis of nasal lesions and decreased body weights (Dieter et al., 1993).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=675	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=71fb18eb47f5afe9; raw_unit=mg/kg bw per day; context=In female rats, the NOEL was 675 mg/kg bw per day, on the basis of decreased body weights and body-weight gains, and bone marrow atrophy (National Toxicology Program, 2003). (ii) 2,4-Dimethyl-2-pentenoic acid (No.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=675	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=71fb18eb47f5afe9; raw_unit=mg/kg bw per day; context=In female rats, the NOEL was 675 mg/kg bw per day, on the basis of decreased body weights and body-weight gains, and bone marrow atrophy (National Toxicology Program, 2003). (ii) 2,4-Dimethyl-2-pentenoic acid (No.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	<745	mg/kg bw/day	Mouse	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=53988f6f6e951628; raw_unit=mg/kg bw per day; context=The NOEL for citral was <745 mg/kg bw per day in male mice on the basis of decreased body weights and body-weight gains, and reductions in lymphocyte and leukocyte counts.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	<745	mg/kg bw/day	Mouse	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=53988f6f6e951628; raw_unit=mg/kg bw per day; context=The NOEL for citral was <745 mg/kg bw per day in male mice on the basis of decreased body weights and body-weight gains, and reductions in lymphocyte and leukocyte counts.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	<790	mg/kg bw/day	Mouse	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=6c3849630141e03c; raw_unit=mg/kg bw per day; context=In female mice, the NOEL was <790 mg/kg bw per day on the basis of decreased body weights and body-weight gains (National Toxicology Program, 2003).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	<790	mg/kg bw/day	Mouse	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=6c3849630141e03c; raw_unit=mg/kg bw per day; context=In female mice, the NOEL was <790 mg/kg bw per day on the basis of decreased body weights and body-weight gains (National Toxicology Program, 2003).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=1140	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=a683b140a1d0a6ac; raw_unit=mg/kg bw per day; context=The NOEL for citral was 1140 mg/kg bw per day in male rats on the basis of forestom-ach lesions.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=1140	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=a683b140a1d0a6ac; raw_unit=mg/kg bw per day; context=The NOEL for citral was 1140 mg/kg bw per day in male rats on the basis of forestom-ach lesions.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=2280	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=a5dc314ddc5afdb9; raw_unit=mg/kg bw per day; context=In female rats, the NOEL for citral was 2280 mg/kg bw per day, the highest dose tested.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=2280	mg/kg bw/day	Rat	-	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=a5dc314ddc5afdb9; raw_unit=mg/kg bw per day; context=In female rats, the NOEL for citral was 2280 mg/kg bw per day, the highest dose tested.
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=4275	mg/kg bw/day	-	oral	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=2f7815776afef952; raw_unit=mg/kg bw per day; context=The NOEL for citral was 4275 mg/kg bw per day, on the basis of decreased body weights (Dieter et al., 1993).
INCHEM_WHO_jecfa_jecmono_v52je15	NOEL	=4275	mg/kg bw/day	-	oral	-	Toxicology study	document_id=jecfa_jecmono_v52je15; title=ALIPHATIC BRANCHED-CHAIN SATURATED AND UNSATURATED ALCOHOLS, ALDEHYDES, ACIDS, AND RELATED ESTERS (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je15.htm; row_hash=2f7815776afef952; raw_unit=mg/kg bw per day; context=The NOEL for citral was 4275 mg/kg bw per day, on the basis of decreased body weights (Dieter et al., 1993).

INCHEM_WHO_jecfa_jecmono_v52je28 28 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=2.06	mg/kg bw/day	Rat	-	28-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=f38134d6d683c7cd; raw_unit=mg/kg bw per day; context=1284 ( E )-3,( Z )-6-Nonadien-1-ol 92% 6% ( E,E ) isomer In a 28-day study in rats, a NOEL* of 2.06 mg/kg bw per day was reported for the structurally related material ( E,Z )-2,6-dodecadienal (No.
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=2.06	mg/kg bw/day	Rat	-	28-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=f38134d6d683c7cd; raw_unit=mg/kg bw per day; context=1284 ( E )-3,( Z )-6-Nonadien-1-ol 92% 6% ( E,E ) isomer In a 28-day study in rats, a NOEL* of 2.06 mg/kg bw per day was reported for the structurally related material ( E,Z )-2,6-dodecadienal (No.
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=10	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=7aa3e892bfacc240; raw_unit=mg/kg bw per day; context=A NOEL of 10 mg/kg bw per day was reported for the structurally related substance, beta- ionone (No.
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=10	mg/kg bw/day	-	-	-	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=7aa3e892bfacc240; raw_unit=mg/kg bw per day; context=A NOEL of 10 mg/kg bw per day was reported for the structurally related substance, beta- ionone (No.
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=30	mg/kg bw/day	Rat	oral	13-week	Subchronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=13cce56a91464508; raw_unit=mg/kg bw per day; context=A 13-week study of oral administration in rats identified a NOEL of 30 mg/kg bw per day for this material (Gaunt, 1971).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=30	mg/kg bw/day	Rat	oral	13-week	Subchronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=13cce56a91464508; raw_unit=mg/kg bw per day; context=A 13-week study of oral administration in rats identified a NOEL of 30 mg/kg bw per day for this material (Gaunt, 1971).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=32	mg/kg bw/day	Mouse	-	80-week	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=9a42cdc9dd4795ad; raw_unit=mg/kg bw per day; context=In an 80-week study in mice a NOEL of 32 mg/kg bw per day was reported (Roe et al., 1979).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=32	mg/kg bw/day	Mouse	-	80-week	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=9a42cdc9dd4795ad; raw_unit=mg/kg bw per day; context=In an 80-week study in mice a NOEL of 32 mg/kg bw per day was reported (Roe et al., 1979).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	>50	mg/kg bw/day	Rat	-	84-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=f82c7ce96269f31c; raw_unit=mg/kg bw per day; context=In an 84-day study in rats, the NOEL for linalool was >50 mg/kg bw per day (Oser, 1967).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	>50	mg/kg bw/day	Rat	-	84-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=f82c7ce96269f31c; raw_unit=mg/kg bw per day; context=In an 84-day study in rats, the NOEL for linalool was >50 mg/kg bw per day (Oser, 1967).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=60	mg/kg bw	Rat	-	98-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=749ac57fbe6bd49a; raw_unit=mg/kg bw; context=A 98-day study with the structurally related material 2,4-hexadienal showed a NOEL of 15 and 60 mg/kg bw for male and female rats, respectively (National Toxicology Program, 2001b).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=60	mg/kg bw	Rat	-	98-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=749ac57fbe6bd49a; raw_unit=mg/kg bw; context=A 98-day study with the structurally related material 2,4-hexadienal showed a NOEL of 15 and 60 mg/kg bw for male and female rats, respectively (National Toxicology Program, 2001b).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=100	mg/kg bw/day	-	-	90-day	Subchronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=2c502db7cb4d2e65; raw_unit=mg/kg bw per day; context=A 90-day study for the structurally related material (E,E)-2,4-decadienal identified a NOEL of 100 mg/kg bw per day (National Toxicology Program, 1997).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=100	mg/kg bw/day	-	-	90-day	Subchronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=2c502db7cb4d2e65; raw_unit=mg/kg bw per day; context=A 90-day study for the structurally related material (E,E)-2,4-decadienal identified a NOEL of 100 mg/kg bw per day (National Toxicology Program, 1997).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	range:120-150150	mg/kg bw/day	-	oral	98-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=b3dcd4e63287f3b5; raw_unit=mg/kg bw per day; context=A NOEL of 120-150 mg/kg bw per day was reported for cis -3-hexen-1-ol in a 98-day study of oral administration (Gaunt et al., 1969).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	range:120-150150	mg/kg bw/day	-	oral	98-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=b3dcd4e63287f3b5; raw_unit=mg/kg bw per day; context=A NOEL of 120-150 mg/kg bw per day was reported for cis -3-hexen-1-ol in a 98-day study of oral administration (Gaunt et al., 1969).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=250	mg/kg bw/day	Rat	oral	14-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=0b22922f8269a615; raw_unit=mg/kg bw per day; context=In a 14-day study of oral toxicity in rats, isopulegol was reported to have a NOEL of 250 mg/kg bw per day (Imaizumi et al., 1985).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=250	mg/kg bw/day	Rat	oral	14-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=0b22922f8269a615; raw_unit=mg/kg bw per day; context=In a 14-day study of oral toxicity in rats, isopulegol was reported to have a NOEL of 250 mg/kg bw per day (Imaizumi et al., 1985).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=350	mg/kg bw/day	Rat	-	63-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=6992895be58d3f53; raw_unit=mg/kg bw per day; context=In a 63-day study in rats, the NOEL for acetic acid was 350 mg/kg bw per day (Pardoe, 1952).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=350	mg/kg bw/day	Rat	-	63-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=6992895be58d3f53; raw_unit=mg/kg bw per day; context=In a 63-day study in rats, the NOEL for acetic acid was 350 mg/kg bw per day (Pardoe, 1952).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	>400	mg/kg bw/day	Rat	-	2-year	Chronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=74fe4d87763b5af8; raw_unit=mg/kg bw per day; context=A NOEL of >400 mg/kg bw per day for formic acid was identified in a 2-year study in rats (Malorny, 1969).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	>400	mg/kg bw/day	Rat	-	2-year	Chronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=74fe4d87763b5af8; raw_unit=mg/kg bw per day; context=A NOEL of >400 mg/kg bw per day for formic acid was identified in a 2-year study in rats (Malorny, 1969).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=1200	mg/kg bw/day	Rat	-	28-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=3a43923bf1e999db; raw_unit=mg/kg bw per day; context=In a 28-day study in rats, the NOEL for 1,8-cineole was 300 and 1200 mg/kg bw per day for males and females, respectively (National Toxicology Program, 1987a).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=1200	mg/kg bw/day	Rat	-	28-day	Toxicology study	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=3a43923bf1e999db; raw_unit=mg/kg bw per day; context=In a 28-day study in rats, the NOEL for 1,8-cineole was 300 and 1200 mg/kg bw per day for males and females, respectively (National Toxicology Program, 1987a).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=2000	mg/kg bw/day	Rat	-	2 years	Chronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=369130f62ca03842; raw_unit=mg/kg bw per day; context=A NOEL of 2000 mg/kg bw per day was reported when rats were fed a mixture of 71% geranyl acetate and 29% citronellyl acetate for 2 years (National Toxicology Program, 1987b).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	=2000	mg/kg bw/day	Rat	-	2 years	Chronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=369130f62ca03842; raw_unit=mg/kg bw per day; context=A NOEL of 2000 mg/kg bw per day was reported when rats were fed a mixture of 71% geranyl acetate and 29% citronellyl acetate for 2 years (National Toxicology Program, 1987b).
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	>2500	mg/kg bw/day	Rat	oral	90-day	Subchronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=011f2107208f490a; raw_unit=mg/kg bw per day; context=A 90-day study of oral administration in rats identified a NOEL of >2500 mg/kg bw per day for the structurally related material, isovaleric acid (No.
INCHEM_WHO_jecfa_jecmono_v52je28	NOEL	>2500	mg/kg bw/day	Rat	oral	90-day	Subchronic toxicity	document_id=jecfa_jecmono_v52je28; title=ANNEX 6 (JECFA 52, 2004); path=mirror/documents/jecfa/jecmono/v52je28.htm; row_hash=011f2107208f490a; raw_unit=mg/kg bw per day; context=A 90-day study of oral administration in rats identified a NOEL of >2500 mg/kg bw per day for the structurally related material, isovaleric acid (No.

NTP_ICE_acute_oral 4 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
NTP_ICE_acute_oral	LD50	=4895	mg/kg bw	Rat (Female)	oral	acute	Rat Acute Oral Toxicity	Pesticide Active Ingredients Database (undated); record_id=acute_oral_7349; row=10349; data_type=In Vivo; mixture=Chemical; chemical_name=3,7-Dimethyl-2,6-octadienal; preferred_name=3,7-Dimethyl-2,6-octadienal; dtxsid=DTXSID6024836; url_comptox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; url_cebs=https://doi.org/10.22427/NTP-DATA-DTXSID6024836; source_file=acute_oral.xlsx
NTP_ICE_acute_oral	LD50	=4950	mg/kg bw	Rat	oral	acute	Rat Acute Oral Toxicity	NLM Hazardous Substances Data Bank (undated); record_id=acute_oral_7351; row=10347; data_type=In Vivo; mixture=Chemical; chemical_name=3,7-Dimethyl-2,6-octadienal; preferred_name=3,7-Dimethyl-2,6-octadienal; dtxsid=DTXSID6024836; url=https://pubchem.ncbi.nlm.nih.gov/; url_comptox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; url_cebs=https://doi.org/10.22427/NTP-DATA-DTXSID6024836; source_file=acute_oral.xlsx
NTP_ICE_acute_oral	LD50	=4960	mg/kg bw	Rat	oral	acute	Rat Acute Oral Toxicity	NLM Hazardous Substances Data Bank (undated); record_id=acute_oral_7355; row=10350; data_type=In Vivo; mixture=Chemical; chemical_name=3,7-Dimethyl-2,6-octadienal; preferred_name=3,7-Dimethyl-2,6-octadienal; dtxsid=DTXSID6024836; url=https://pubchem.ncbi.nlm.nih.gov/; url_comptox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; url_cebs=https://doi.org/10.22427/NTP-DATA-DTXSID6024836; source_file=acute_oral.xlsx
NTP_ICE_acute_oral	LD50	=6800	mg/kg bw	Rat	oral	acute	Rat Acute Oral Toxicity	NLM Hazardous Substances Data Bank (undated); record_id=acute_oral_7357; row=10348; data_type=In Vivo; mixture=Chemical; chemical_name=3,7-Dimethyl-2,6-octadienal; preferred_name=3,7-Dimethyl-2,6-octadienal; dtxsid=DTXSID6024836; url=https://pubchem.ncbi.nlm.nih.gov/; url_comptox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; url_cebs=https://doi.org/10.22427/NTP-DATA-DTXSID6024836; source_file=acute_oral.xlsx

NTP_ICE_cancer 3 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
NTP_ICE_cancer	POLY-3 lowest dose	1000	ppm	Mouse	Dosed feed	-	In Vivo; Two year cancer bioassay	sheet=Data; excel_row=7004; Record_ID=cancer_2063; Data_Type=In Vivo; Formulation_Name=Citral; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Two year cancer bioassay; Endpoint=POLY-3 lowest dose; Response=1000; Response_Unit=ppm; Species=Mouse; Strain=B6C3F1; Sex=Female; Route=Dosed feed; Level_of_Evidence=Equivocal evidence; Tissue=Hematopoietic system; Lesion=Malignant lymphoma: histiocytic, lymphocytic, mixed, nos, or undifferentiated cell type; Reference=TR-505; URL=https://ntp.niehs.nih.gov/publications/reports/tr/500s/tr505/index.html; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_cancer	Top dose	2000	ppm	Mouse	Dosed feed	-	In Vivo; NTP Carcinogenicity	sheet=Data; excel_row=7000; Record_ID=cancer_2060; Data_Type=In Vivo; Formulation_Name=Citral; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=NTP Carcinogenicity; Endpoint=Top dose; Response=2000; Response_Unit=ppm; Species=Mouse; Strain=B6C3F1; Sex=Male; Route=Dosed feed; Reference=TR-505; URL=https://ntp.niehs.nih.gov/publications/reports/tr/500s/tr505/index.html; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_cancer	Top dose	4000	ppm	Rat	Dosed feed	-	In Vivo; NTP Carcinogenicity	sheet=Data; excel_row=7007; Record_ID=cancer_2065; Data_Type=In Vivo; Formulation_Name=Citral; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=NTP Carcinogenicity; Endpoint=Top dose; Response=4000; Response_Unit=ppm; Species=Rat; Strain=F344/N; Sex=Female; Route=Dosed feed; Reference=TR-505; URL=https://ntp.niehs.nih.gov/publications/reports/tr/500s/tr505/index.html; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836

NTP_ICE_endocrine 1 endpoint

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
NTP_ICE_endocrine	Model Score	0	unitless	-	-	-	ARPathway2016; AR Pathway Model, Antagonist	sheet=Integrated_approaches; excel_row=3028; RecordID=ARPathway2016_1297; DatasetName=ARPathway2016; DTXSID=DTXSID6024836; Assay=AR Pathway Model, Antagonist; Endpoint=Model Score; Response=0; Response_Unit=Unitless; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836

NTP_ICE_skin_sensitization 156 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
NTP_ICE_skin_sensitization	CD54, EC200	13	ug/mL	-	Dermal	-	In Vitro; hCLAT2015; h-CLAT	sheet=Data_invitro; excel_row=2503; Record_ID=skin_sensitization_invitro_593; Data_Type=In Vitro; Internal_Data_Source=hCLAT2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=h-CLAT; Endpoint=CD54, EC200; Reported_Response=13; Reported_Response_Unit=ug/mL; Response=13; Response_Unit=ug/mL; Reference=Bauch et al. 2011; 21669280; 10.1016/j.tiv.2011.05.030|Bauch et al. 2012; 22659254; 10.1016/j.yrtph.2012.05.013; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	CD54, EC200	15	ug/mL	-	Dermal	-	In Vitro; CE_hCLAT2018; h-CLAT	sheet=Data_invitro; excel_row=2186; Record_ID=skin_sensitization_invitro_521; Data_Type=In Vitro; Internal_Data_Source=CE_hCLAT2018; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=h-CLAT; Endpoint=CD54, EC200; Reported_Response=15; Reported_Response_Unit=ug/mL; Response=15; Response_Unit=ug/mL; Reference=Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	CD86, EC150	2.2	ug/mL	-	Dermal	-	In Vitro; Urbisch_SkinSensitization2020; U-SENS	sheet=Data_invitro; excel_row=8239; Record_ID=skin_sensitization_invitro_2262; Data_Type=In Vitro; Internal_Data_Source=Urbisch_SkinSensitization2020; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=U-SENS; Endpoint=CD86, EC150; Reported_Response=14.45181633; Reported_Response_Unit=uM; Conversion_Factor_Value=152.237; Conversion_Factor_Source=EPA Dashboard; Converted_Response=2.2; Converted_Response_Unit=ug/mL; Response=2.2; Response_Unit=ug/mL; Reference=Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	CD86, EC150	3.7	ug/mL	-	Dermal	-	In Vitro; CE_USENSE2018; U-SENS	sheet=Data_invitro; excel_row=8586; Record_ID=skin_sensitization_invitro_2371; Data_Type=In Vitro; Internal_Data_Source=CE_USENSE2018; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=U-SENS; Endpoint=CD86, EC150; Reported_Response=3.7; Reported_Response_Unit=ug/mL; Response=3.7; Response_Unit=ug/mL; Reference=Piroird et al. 2015; 25820135; 10.1016/j.tiv.2015.03.009; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	CD86, EC150	8.41	ug/mL	-	Dermal	-	In Vitro; CE_hCLAT2018; h-CLAT	sheet=Data_invitro; excel_row=2184; Record_ID=skin_sensitization_invitro_521; Data_Type=In Vitro; Internal_Data_Source=CE_hCLAT2018; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=h-CLAT; Endpoint=CD86, EC150; Reported_Response=8.41; Reported_Response_Unit=ug/mL; Response=8.41; Response_Unit=ug/mL; Reference=Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	CV70	12.97	ug/mL	-	Dermal	-	In Vitro; CE_USENSE2018; U-SENS	sheet=Data_invitro; excel_row=8585; Record_ID=skin_sensitization_invitro_2371; Data_Type=In Vitro; Internal_Data_Source=CE_USENSE2018; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=U-SENS; Endpoint=CV70; Reported_Response=12.97; Reported_Response_Unit=ug/mL; Response=12.97; Response_Unit=ug/mL; Reference=Piroird et al. 2015; 25820135; 10.1016/j.tiv.2015.03.009; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	CV75	16.6	ug/mL	-	Dermal	-	In Vitro; hCLAT2015; h-CLAT	sheet=Data_invitro; excel_row=2508; Record_ID=skin_sensitization_invitro_593; Data_Type=In Vitro; Internal_Data_Source=hCLAT2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=h-CLAT; Endpoint=CV75; Reported_Response=16.600000000000001; Reported_Response_Unit=ug/mL; Response=16.6; Response_Unit=ug/mL; Reference=Bauch et al. 2011; 21669280; 10.1016/j.tiv.2011.05.030|Bauch et al. 2012; 22659254; 10.1016/j.yrtph.2012.05.013; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	CV75	24	ug/mL	-	Dermal	-	In Vitro; CE_hCLAT2018; h-CLAT	sheet=Data_invitro; excel_row=2188; Record_ID=skin_sensitization_invitro_521; Data_Type=In Vitro; Internal_Data_Source=CE_hCLAT2018; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=h-CLAT; Endpoint=CV75; Reported_Response=24; Reported_Response_Unit=ug/mL; Response=24; Response_Unit=ug/mL; Reference=Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	0.04167	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7857; Record_ID=skin_sensitization_invivo_1775; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Concentration, 5% incidence of positive responses; Response=0.04167; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	0.125	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7841; Record_ID=skin_sensitization_invivo_1772; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Concentration, 5% incidence of positive responses; Response=0.125; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	0.3125	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7872; Record_ID=skin_sensitization_invivo_1778; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.5; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Concentration, 5% incidence of positive responses; Response=0.3125; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	0.4	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7960; Record_ID=skin_sensitization_invivo_1790; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=4.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, 5% incidence of positive responses; Response=0.4; Response_Unit=%; Species=Human; Route=Dermal; Reference=Majors 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	range0.42	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7909; Record_ID=skin_sensitization_invivo_1783; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, 5% incidence of positive responses; Response_Modifier=range; Response=0.42 - 0.84; Response_Unit=%; Species=Human; Route=Dermal; Reference=Majors 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	0.7656	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7886; Record_ID=skin_sensitization_invivo_1780; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=5.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, 5% incidence of positive responses; Response=0.7656; Response_Unit=%; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	1.025	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7923; Record_ID=skin_sensitization_invivo_1787; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=2.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, 5% incidence of positive responses; Response=1.025; Response_Unit=%; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	1.2	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7881; Record_ID=skin_sensitization_invivo_1779; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=2.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Concentration, 5% incidence of positive responses; Response=1.2; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	2.1	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7906; Record_ID=skin_sensitization_invivo_1784; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=1.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, 5% incidence of positive responses; Response=2.1; Response_Unit=%; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|Akkan et al. 2003; Not available; Not available|Griem et al. 2003; 14623479; 10.1016/j.yrtph.2003.07.001|Schneider and Akkan 2004; 15135206; 10.1016/j.yrtph.2004.02.002|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, 5% incidence of positive responses	3.733	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7893; Record_ID=skin_sensitization_invivo_1781; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=8.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, 5% incidence of positive responses; Response=3.733; Response_Unit=%; Species=Human; Route=Dermal; Reference=Maibach 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, one positive response	0.03333	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7853; Record_ID=skin_sensitization_invivo_1775; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Concentration, one positive response; Response=0.03333; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, one positive response	0.1	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7837; Record_ID=skin_sensitization_invivo_1772; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Concentration, one positive response; Response=0.1; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, one positive response	range0.2	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7905; Record_ID=skin_sensitization_invivo_1783; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, one positive response; Response_Modifier=range; Response=0.2 - 0.4; Response_Unit=%; Species=Human; Route=Dermal; Reference=Majors 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, one positive response	0.25	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7869; Record_ID=skin_sensitization_invivo_1778; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.5; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Concentration, one positive response; Response=0.25; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, one positive response	0.3125	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7885; Record_ID=skin_sensitization_invivo_1780; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=5.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, one positive response; Response=0.3125; Response_Unit=%; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, one positive response	0.5	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7904; Record_ID=skin_sensitization_invivo_1784; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=1.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, one positive response; Response=0.5; Response_Unit=%; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|Akkan et al. 2003; Not available; Not available|Griem et al. 2003; 14623479; 10.1016/j.yrtph.2003.07.001|Schneider and Akkan 2004; 15135206; 10.1016/j.yrtph.2004.02.002|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, one positive response	0.8	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7956; Record_ID=skin_sensitization_invivo_1790; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=4.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, one positive response; Response=0.8; Response_Unit=%; Species=Human; Route=Dermal; Reference=Majors 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, one positive response	1	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7879; Record_ID=skin_sensitization_invivo_1779; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=2.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Concentration, one positive response; Response=1; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Concentration, one positive response	1.333	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7891; Record_ID=skin_sensitization_invivo_1781; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=8.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Concentration, one positive response; Response=1.333; Response_Unit=%; Species=Human; Route=Dermal; Reference=Maibach 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Depletion Cys	13.9	%	-	Dermal	-	In Vitro; DPRA2015; DPRA	sheet=Data_invitro; excel_row=384; Record_ID=skin_sensitization_invitro_119; Data_Type=In Vitro; Internal_Data_Source=DPRA2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=DPRA; Endpoint=Depletion Cys; Reported_Response=13.9; Reported_Response_Unit=%; Response=13.9; Response_Unit=%; Reference=Nukada et al. 2013; 23149339; 10.1016/j.tiv.2012.11.006|Nukada personal communication (undated); URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Depletion Cys	78.6	%	-	Dermal	-	In Vitro; DPRA2015; DPRA	sheet=Data_invitro; excel_row=374; Record_ID=skin_sensitization_invitro_117; Data_Type=In Vitro; Internal_Data_Source=DPRA2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=DPRA; Endpoint=Depletion Cys; Reported_Response=78.599999999999994; Reported_Response_Unit=%; Response=78.6; Response_Unit=%; Reference=Bauch et al. 2011; 21669280; 10.1016/j.tiv.2011.05.030|Bauch et al. 2012; 22659254; 10.1016/j.yrtph.2012.05.013; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Depletion Cys	85.7	%	-	Dermal	-	In Vitro; DPRA2015; DPRA	sheet=Data_invitro; excel_row=380; Record_ID=skin_sensitization_invitro_118; Data_Type=In Vitro; Internal_Data_Source=DPRA2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=DPRA; Endpoint=Depletion Cys; Reported_Response=85.7; Reported_Response_Unit=%; Response=85.7; Response_Unit=%; Reference=Gerberick et al. 2004; 15254333; 10.1093/toxsci/kfh213|Natsch et al. 2013; 23576290; 10.1002/jat.2868; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Depletion Lys	8.6	%	-	Dermal	-	In Vitro; DPRA2015; DPRA	sheet=Data_invitro; excel_row=373; Record_ID=skin_sensitization_invitro_117; Data_Type=In Vitro; Internal_Data_Source=DPRA2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=DPRA; Endpoint=Depletion Lys; Reported_Response=8.6; Reported_Response_Unit=%; Response=8.6; Response_Unit=%; Reference=Bauch et al. 2011; 21669280; 10.1016/j.tiv.2011.05.030|Bauch et al. 2012; 22659254; 10.1016/j.yrtph.2012.05.013; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Depletion Lys	16.9	%	-	Dermal	-	In Vitro; DPRA2015; DPRA	sheet=Data_invitro; excel_row=379; Record_ID=skin_sensitization_invitro_118; Data_Type=In Vitro; Internal_Data_Source=DPRA2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=DPRA; Endpoint=Depletion Lys; Reported_Response=16.899999999999999; Reported_Response_Unit=%; Response=16.9; Response_Unit=%; Reference=Gerberick et al. 2004; 15254333; 10.1093/toxsci/kfh213|Natsch et al. 2013; 23576290; 10.1002/jat.2868; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Depletion Lys	19.6	%	-	Dermal	-	In Vitro; DPRA2015; DPRA	sheet=Data_invitro; excel_row=383; Record_ID=skin_sensitization_invitro_119; Data_Type=In Vitro; Internal_Data_Source=DPRA2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=DPRA; Endpoint=Depletion Lys; Reported_Response=19.600000000000001; Reported_Response_Unit=%; Response=19.6; Response_Unit=%; Reference=Nukada et al. 2013; 23149339; 10.1016/j.tiv.2012.11.006|Nukada personal communication (undated); URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Depletion Lys + Cys	14	%	-	Dermal	-	In Vitro; DPRA2015; DPRA	sheet=Data_invitro; excel_row=385; Record_ID=skin_sensitization_invitro_119; Data_Type=In Vitro; Internal_Data_Source=DPRA2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=DPRA; Endpoint=Depletion Lys + Cys; Reported_Response=14; Reported_Response_Unit=%; Response=14; Response_Unit=%; Reference=Nukada et al. 2013; 23149339; 10.1016/j.tiv.2012.11.006|Nukada personal communication (undated); URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Depletion Lys + Cys	43.6	%	-	Dermal	-	In Vitro; DPRA2015; DPRA	sheet=Data_invitro; excel_row=376; Record_ID=skin_sensitization_invitro_117; Data_Type=In Vitro; Internal_Data_Source=DPRA2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=DPRA; Endpoint=Depletion Lys + Cys; Reported_Response=43.6; Reported_Response_Unit=%; Response=43.6; Response_Unit=%; Reference=Bauch et al. 2011; 21669280; 10.1016/j.tiv.2011.05.030|Bauch et al. 2012; 22659254; 10.1016/j.yrtph.2012.05.013; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Depletion Lys + Cys	51.3	%	-	Dermal	-	In Vitro; DPRA2015; DPRA	sheet=Data_invitro; excel_row=381; Record_ID=skin_sensitization_invitro_118; Data_Type=In Vitro; Internal_Data_Source=DPRA2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=DPRA; Endpoint=Depletion Lys + Cys; Reported_Response=51.3; Reported_Response_Unit=%; Response=51.3; Response_Unit=%; Reference=Gerberick et al. 2004; 15254333; 10.1093/toxsci/kfh213|Natsch et al. 2013; 23576290; 10.1002/jat.2868; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	6.75	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5931; Record_ID=skin_sensitization_invitro_1396; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=6.75; Reported_Response_Unit=uM; Response=6.75; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	7.66	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5932; Record_ID=skin_sensitization_invitro_1402; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=7.66; Reported_Response_Unit=uM; Response=7.66; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	12.6	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5908; Record_ID=skin_sensitization_invitro_1407; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=12.6; Reported_Response_Unit=uM; Response=12.6; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	13.46	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5909; Record_ID=skin_sensitization_invitro_1397; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=13.46; Reported_Response_Unit=uM; Response=13.46; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	14.8	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5910; Record_ID=skin_sensitization_invitro_1405; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=14.8; Reported_Response_Unit=uM; Response=14.8; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	15.3	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5911; Record_ID=skin_sensitization_invitro_1391; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=15.3; Reported_Response_Unit=uM; Response=15.3; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	16.1	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5912; Record_ID=skin_sensitization_invitro_1409; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=16.100000000000001; Reported_Response_Unit=uM; Response=16.1; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	16.3	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5913; Record_ID=skin_sensitization_invitro_1410; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=16.3; Reported_Response_Unit=uM; Response=16.3; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	16.37	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5914; Record_ID=skin_sensitization_invitro_1394; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=16.37; Reported_Response_Unit=uM; Response=16.37; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	16.91	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5915; Record_ID=skin_sensitization_invitro_1404; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=16.91; Reported_Response_Unit=uM; Response=16.91; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	17	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5916; Record_ID=skin_sensitization_invitro_1387; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=17; Reported_Response_Unit=uM; Response=17; Response_Unit=uM; Reference=Bauch et al. 2011; 21669280; 10.1016/j.tiv.2011.05.030|Bauch et al. 2012; 22659254; 10.1016/j.yrtph.2012.05.013; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	17.2	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5917; Record_ID=skin_sensitization_invitro_1406; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=17.2; Reported_Response_Unit=uM; Response=17.2; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	17.3	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5918; Record_ID=skin_sensitization_invitro_1393; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=17.3; Reported_Response_Unit=uM; Response=17.3; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	17.33	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5919; Record_ID=skin_sensitization_invitro_1403; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=17.329999999999998; Reported_Response_Unit=uM; Response=17.33; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	18.3	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5920; Record_ID=skin_sensitization_invitro_1395; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=18.3; Reported_Response_Unit=uM; Response=18.3; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	18.46	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5921; Record_ID=skin_sensitization_invitro_1398; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=18.46; Reported_Response_Unit=uM; Response=18.46; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	19.2	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5922; Record_ID=skin_sensitization_invitro_1392; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=19.2; Reported_Response_Unit=uM; Response=19.2; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	20.4	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5923; Record_ID=skin_sensitization_invitro_1408; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=20.399999999999999; Reported_Response_Unit=uM; Response=20.4; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	21.2	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5924; Record_ID=skin_sensitization_invitro_1389; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=21.2; Reported_Response_Unit=uM; Response=21.2; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	22.66	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5925; Record_ID=skin_sensitization_invitro_1400; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=22.66; Reported_Response_Unit=uM; Response=22.66; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	23.16	uM	-	Dermal	-	In Vitro; CE_KeratinoSense2018; KeratinoSens	sheet=Data_invitro; excel_row=5926; Record_ID=skin_sensitization_invitro_1386; Data_Type=In Vitro; Internal_Data_Source=CE_KeratinoSense2018; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=23.164999999999999; Reported_Response_Unit=uM; Response=23.16; Response_Unit=uM; Reference=Natsch et al. 2013; 23576290; 10.1002/jat.2868|Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	23.2	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5927; Record_ID=skin_sensitization_invitro_1388; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=23.2; Reported_Response_Unit=uM; Response=23.2; Response_Unit=uM; Reference=Emter et al. 2010; 20307559; 10.1016/j.taap.2010.03.009|Natsch et al. 2011; 22023385; 10.1021/tx2003678|Natsch et al. 2013; 23576290; 10.1002/jat.2868; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	23.88	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5928; Record_ID=skin_sensitization_invitro_1401; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=23.88; Reported_Response_Unit=uM; Response=23.88; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	25.1	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5929; Record_ID=skin_sensitization_invitro_1390; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=25.1; Reported_Response_Unit=uM; Response=25.1; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	34.37	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5930; Record_ID=skin_sensitization_invitro_1399; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC1.5; Reported_Response=34.369999999999997; Reported_Response_Unit=uM; Response=34.37; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC1.5	<48.23	uM	-	Dermal	-	In Vitro; Urbisch_SkinSensitization2020; LuSens	sheet=Data_invitro; excel_row=7595; Record_ID=skin_sensitization_invitro_1834; Data_Type=In Vitro; Internal_Data_Source=Urbisch_SkinSensitization2020; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LuSens; Endpoint=EC1.5; Response_Modifier=<; Reported_Response_Modifier=<; Reported_Response=48.23; Reported_Response_Unit=uM; Response=48.23; Response_Unit=uM; Reference=Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	4.6	%	Mouse	Dermal	-	In Vivo; Urbisch_SkinSensitization2020; LLNA	sheet=Data_invivo; excel_row=12938; Record_ID=skin_sensitization_invivo_2867; Data_Type=In Vivo; Internal_Data_Source=Urbisch_SkinSensitization2020; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=4.6; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	5.1	%	Mouse	Dermal	-	In Vivo; LLNAdb2013; LLNA	sheet=Data_invivo; excel_row=13138; Record_ID=skin_sensitization_invivo_3155; Data_Type=In Vivo; Internal_Data_Source=LLNAdb2013; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=5.1; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=Ashby et al. 1995; 8553361; 10.1016/0300-483x(95)03132-y; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	5.3	%	Mouse	Dermal	-	In Vivo; Urbisch_SkinSensitization2020; LLNA	sheet=Data_invivo; excel_row=12940; Record_ID=skin_sensitization_invivo_2867; Data_Type=In Vivo; Internal_Data_Source=Urbisch_SkinSensitization2020; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=5.3; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	5.7	%	Mouse	Dermal	-	In Vivo; LLNAdb2013; LLNA	sheet=Data_invivo; excel_row=13135; Record_ID=skin_sensitization_invivo_3151; Data_Type=In Vivo; Internal_Data_Source=LLNAdb2013; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=5.7; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=Basketter et al. 1991; Not available; 10.3109/15376519109036523; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	6.3	%	Mouse	Dermal	-	In Vivo; LLNAdb2013; LLNA	sheet=Data_invivo; excel_row=13072; Record_ID=skin_sensitization_invivo_3057; Data_Type=In Vivo; Internal_Data_Source=LLNAdb2013; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=6.3; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=Lalko and Api 2006; 16324777; 10.1016/j.fct.2005.10.006; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	6.6	%	Mouse	Dermal	-	In Vivo; LLNAdb2013; LLNA	sheet=Data_invivo; excel_row=13130; Record_ID=skin_sensitization_invivo_3144; Data_Type=In Vivo; Internal_Data_Source=LLNAdb2013; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=6.6; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=Basketter et al. 1991; Not available; 10.3109/15376519109036523; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	9.2	%	Mouse	Dermal	-	In Vivo; LLNA2013; LLNA	sheet=Data_invivo; excel_row=12877; Record_ID=skin_sensitization_invivo_493; Data_Type=In Vivo; Internal_Data_Source=LLNA2013; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=9.2; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	12	%	Mouse	Dermal	-	In Vivo; LLNAdb2013; LLNA	sheet=Data_invivo; excel_row=13132; Record_ID=skin_sensitization_invivo_3146; Data_Type=In Vivo; Internal_Data_Source=LLNAdb2013; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=12; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=Basketter et al. 1991; Not available; 10.3109/15376519109036523; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	12.6	%	Mouse	Dermal	-	In Vivo; LLNAdb2013; LLNA	sheet=Data_invivo; excel_row=13136; Record_ID=skin_sensitization_invivo_3153; Data_Type=In Vivo; Internal_Data_Source=LLNAdb2013; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=12.6; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=Basketter et al. 1991; Not available; 10.3109/15376519109036523; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	13	%	Mouse	Dermal	-	In Vivo; LLNAdb2013; LLNA	sheet=Data_invivo; excel_row=13127; Record_ID=skin_sensitization_invivo_3141; Data_Type=In Vivo; Internal_Data_Source=LLNAdb2013; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=EC3; Response=13; Response_Unit=%; Species=Mouse; Route=Dermal; Reference=Gerberick et al. 2005; 16536334; Not available; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	EC3	67.36	uM	-	Dermal	-	In Vitro; CE_KeratinoSense2018; KeratinoSens	sheet=Data_invitro; excel_row=5933; Record_ID=skin_sensitization_invitro_1386; Data_Type=In Vitro; Internal_Data_Source=CE_KeratinoSense2018; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=EC3; Reported_Response=67.361999999999995; Reported_Response_Unit=uM; Response=67.36; Response_Unit=uM; Reference=Natsch et al. 2013; 23576290; 10.1002/jat.2868|Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	100.29	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5934; Record_ID=skin_sensitization_invitro_1392; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=100.29; Reported_Response_Unit=uM; Response=100.29; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	102.77	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5935; Record_ID=skin_sensitization_invitro_1393; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=102.77; Reported_Response_Unit=uM; Response=102.77; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	103.5	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5936; Record_ID=skin_sensitization_invitro_1406; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=103.5; Reported_Response_Unit=uM; Response=103.5; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	107.67	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5937; Record_ID=skin_sensitization_invitro_1391; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=107.67; Reported_Response_Unit=uM; Response=107.67; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	113.87	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5938; Record_ID=skin_sensitization_invitro_1399; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=113.87; Reported_Response_Unit=uM; Response=113.87; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	>120	uM	-	Dermal	-	In Vitro; Urbisch_SkinSensitization2020; LuSens	sheet=Data_invitro; excel_row=7665; Record_ID=skin_sensitization_invitro_1834; Data_Type=In Vitro; Internal_Data_Source=Urbisch_SkinSensitization2020; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LuSens; Endpoint=IC50; Response_Modifier=>; Reported_Response_Modifier=>; Reported_Response=120; Reported_Response_Unit=uM; Response=120; Response_Unit=uM; Reference=Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	122.19	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5939; Record_ID=skin_sensitization_invitro_1395; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=122.19; Reported_Response_Unit=uM; Response=122.19; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	156.01	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5940; Record_ID=skin_sensitization_invitro_1402; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=156.01; Reported_Response_Unit=uM; Response=156.01; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	159.3	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5941; Record_ID=skin_sensitization_invitro_1407; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=159.30000000000001; Reported_Response_Unit=uM; Response=159.3; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	166.9	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5942; Record_ID=skin_sensitization_invitro_1409; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=166.9; Reported_Response_Unit=uM; Response=166.9; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	167.99	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5943; Record_ID=skin_sensitization_invitro_1401; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=167.99; Reported_Response_Unit=uM; Response=167.99; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	170.91	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5944; Record_ID=skin_sensitization_invitro_1394; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=170.91; Reported_Response_Unit=uM; Response=170.91; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	171.8	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5945; Record_ID=skin_sensitization_invitro_1408; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=171.8; Reported_Response_Unit=uM; Response=171.8; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	177.25	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5946; Record_ID=skin_sensitization_invitro_1400; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=177.25; Reported_Response_Unit=uM; Response=177.25; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	182.8	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5947; Record_ID=skin_sensitization_invitro_1388; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=182.8; Reported_Response_Unit=uM; Response=182.8; Response_Unit=uM; Reference=Emter et al. 2010; 20307559; 10.1016/j.taap.2010.03.009|Natsch et al. 2011; 22023385; 10.1021/tx2003678|Natsch et al. 2013; 23576290; 10.1002/jat.2868; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	182.81	uM	-	Dermal	-	In Vitro; CE_KeratinoSense2018; KeratinoSens	sheet=Data_invitro; excel_row=5948; Record_ID=skin_sensitization_invitro_1386; Data_Type=In Vitro; Internal_Data_Source=CE_KeratinoSense2018; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=182.81; Reported_Response_Unit=uM; Response=182.81; Response_Unit=uM; Reference=Natsch et al. 2013; 23576290; 10.1002/jat.2868|Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	193.55	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5949; Record_ID=skin_sensitization_invitro_1396; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=193.55; Reported_Response_Unit=uM; Response=193.55; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	207.4	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5950; Record_ID=skin_sensitization_invitro_1387; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=207.4; Reported_Response_Unit=uM; Response=207.4; Response_Unit=uM; Reference=Bauch et al. 2011; 21669280; 10.1016/j.tiv.2011.05.030|Bauch et al. 2012; 22659254; 10.1016/j.yrtph.2012.05.013; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	209.89	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5951; Record_ID=skin_sensitization_invitro_1398; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=209.89; Reported_Response_Unit=uM; Response=209.89; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	212.06	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5952; Record_ID=skin_sensitization_invitro_1397; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=212.06; Reported_Response_Unit=uM; Response=212.06; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	226.64	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5953; Record_ID=skin_sensitization_invitro_1405; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=226.64; Reported_Response_Unit=uM; Response=226.64; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	238.8	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5954; Record_ID=skin_sensitization_invitro_1410; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=238.8; Reported_Response_Unit=uM; Response=238.8; Response_Unit=uM; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	241	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5955; Record_ID=skin_sensitization_invitro_1404; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=241; Reported_Response_Unit=uM; Response=241; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	IC50	249.47	uM	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5956; Record_ID=skin_sensitization_invitro_1403; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=IC50; Reported_Response=249.47; Reported_Response_Unit=uM; Response=249.47; Response_Unit=uM; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	9.534	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5990; Record_ID=skin_sensitization_invitro_1394; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=9.5340000000000007; Reported_Response_Unit=Unitless; Response=9.534; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	10.426	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5957; Record_ID=skin_sensitization_invitro_1399; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=10.426; Reported_Response_Unit=Unitless; Response=10.426; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	16.381	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5963; Record_ID=skin_sensitization_invitro_1395; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=16.381; Reported_Response_Unit=Unitless; Response=16.381; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	22.3	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5965; Record_ID=skin_sensitization_invitro_1407; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=22.3; Reported_Response_Unit=Unitless; Response=22.3; Response_Unit=Ratio; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	23.72	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5967; Record_ID=skin_sensitization_invitro_1398; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=23.716000000000001; Reported_Response_Unit=Unitless; Response=23.72; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	32.32	ratio	-	Dermal	-	In Vitro; Urbisch_SkinSensitization2020; LuSens	sheet=Data_invitro; excel_row=7568; Record_ID=skin_sensitization_invitro_1834; Data_Type=In Vitro; Internal_Data_Source=Urbisch_SkinSensitization2020; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LuSens; Endpoint=Imax; Reported_Response=32.32188705; Reported_Response_Unit=Unitless; Response=32.32; Response_Unit=Ratio; Reference=Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	35.86	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5969; Record_ID=skin_sensitization_invitro_1392; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=35.86; Reported_Response_Unit=Unitless; Response=35.86; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	38.59	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5971; Record_ID=skin_sensitization_invitro_1405; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=38.591000000000001; Reported_Response_Unit=Unitless; Response=38.59; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	40	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5973; Record_ID=skin_sensitization_invitro_1408; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=40; Reported_Response_Unit=Unitless; Response=40; Response_Unit=Ratio; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	41.1	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5975; Record_ID=skin_sensitization_invitro_1396; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=41.103000000000002; Reported_Response_Unit=Unitless; Response=41.1; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	50.2	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5977; Record_ID=skin_sensitization_invitro_1410; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=50.2; Reported_Response_Unit=Unitless; Response=50.2; Response_Unit=Ratio; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	50.84	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5979; Record_ID=skin_sensitization_invitro_1391; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=50.835000000000001; Reported_Response_Unit=Unitless; Response=50.84; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	51.59	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5981; Record_ID=skin_sensitization_invitro_1404; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=51.591999999999999; Reported_Response_Unit=Unitless; Response=51.59; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	59.91	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5983; Record_ID=skin_sensitization_invitro_1403; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=59.911000000000001; Reported_Response_Unit=Unitless; Response=59.91; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	60.2	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5985; Record_ID=skin_sensitization_invitro_1406; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=60.2; Reported_Response_Unit=Unitless; Response=60.2; Response_Unit=Ratio; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	76.96	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5987; Record_ID=skin_sensitization_invitro_1402; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=76.959999999999994; Reported_Response_Unit=Unitless; Response=76.96; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	84.55	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5988; Record_ID=skin_sensitization_invitro_1390; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=84.55; Reported_Response_Unit=Unitless; Response=84.55; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	85.78	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5989; Record_ID=skin_sensitization_invitro_1397; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=85.775999999999996; Reported_Response_Unit=Unitless; Response=85.78; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	93.89	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5991; Record_ID=skin_sensitization_invitro_1393; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=93.894000000000005; Reported_Response_Unit=Unitless; Response=93.89; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	96.4	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5993; Record_ID=skin_sensitization_invitro_1388; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=96.4; Reported_Response_Unit=Unitless; Response=96.4; Response_Unit=Ratio; Reference=Emter et al. 2010; 20307559; 10.1016/j.taap.2010.03.009|Natsch et al. 2011; 22023385; 10.1021/tx2003678|Natsch et al. 2013; 23576290; 10.1002/jat.2868; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	96.42	ratio	-	Dermal	-	In Vitro; CE_KeratinoSense2018; KeratinoSens	sheet=Data_invitro; excel_row=5995; Record_ID=skin_sensitization_invitro_1386; Data_Type=In Vitro; Internal_Data_Source=CE_KeratinoSense2018; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=96.42; Reported_Response_Unit=Unitless; Response=96.42; Response_Unit=Ratio; Reference=Natsch et al. 2013; 23576290; 10.1002/jat.2868|Urbisch et al. 2015; 25541156; 10.1016/j.yrtph.2014.12.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	103.571	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5958; Record_ID=skin_sensitization_invitro_1401; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=103.571; Reported_Response_Unit=Unitless; Response=103.571; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	104.4	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5959; Record_ID=skin_sensitization_invitro_1409; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=104.4; Reported_Response_Unit=Unitless; Response=104.4; Response_Unit=Ratio; Reference=Natsch et al. 2011; 22023385; 10.1021/tx2003678; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	107.3	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5960; Record_ID=skin_sensitization_invitro_1387; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=107.3; Reported_Response_Unit=Unitless; Response=107.3; Response_Unit=Ratio; Reference=Bauch et al. 2011; 21669280; 10.1016/j.tiv.2011.05.030|Bauch et al. 2012; 22659254; 10.1016/j.yrtph.2012.05.013; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	108.277	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5961; Record_ID=skin_sensitization_invitro_1389; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=108.277; Reported_Response_Unit=Unitless; Response=108.277; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Imax	132.8	ratio	-	Dermal	-	In Vitro; KeratinoSens2015; KeratinoSens	sheet=Data_invitro; excel_row=5962; Record_ID=skin_sensitization_invitro_1400; Data_Type=In Vitro; Internal_Data_Source=KeratinoSens2015; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=KeratinoSens; Endpoint=Imax; Reported_Response=132.81800000000001; Reported_Response_Unit=Unitless; Response=132.8; Response_Unit=Ratio; Reference=Joint Research Centre of the European Union 2014; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	0	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7894; Record_ID=skin_sensitization_invivo_1782; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.5; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Incidence of positive responses; Response=0; Response_Unit=%; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|Griem et al. 2003; 14623479; 10.1016/j.yrtph.2003.07.001|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	2.381	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7900; Record_ID=skin_sensitization_invivo_1784; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=1.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Incidence of positive responses; Response=2.381; Response_Unit=%; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|Akkan et al. 2003; Not available; Not available|Griem et al. 2003; 14623479; 10.1016/j.yrtph.2003.07.001|Schneider and Akkan 2004; 15135206; 10.1016/j.yrtph.2004.02.002|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	4	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7833; Record_ID=skin_sensitization_invivo_1772; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Incidence of positive responses; Response=4; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	8	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7865; Record_ID=skin_sensitization_invivo_1778; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.5; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Incidence of positive responses; Response=8; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	8.333	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7877; Record_ID=skin_sensitization_invivo_1779; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=2.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Incidence of positive responses; Response=8.333; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	9.756	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7918; Record_ID=skin_sensitization_invivo_1787; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=2.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Incidence of positive responses; Response=9.756; Response_Unit=%; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	10.71	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7889; Record_ID=skin_sensitization_invivo_1781; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=8.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Incidence of positive responses; Response=10.71; Response_Unit=%; Species=Human; Route=Dermal; Reference=Maibach 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	12	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7849; Record_ID=skin_sensitization_invivo_1775; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Incidence of positive responses; Response=12; Response_Unit=%; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	32.65	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7966; Record_ID=skin_sensitization_invivo_1780; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=5.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Incidence of positive responses; Response=32.65; Response_Unit=%; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	47.5	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7901; Record_ID=skin_sensitization_invivo_1783; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Incidence of positive responses; Response=47.5; Response_Unit=%; Species=Human; Route=Dermal; Reference=Majors 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Incidence of positive responses	50	%	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7952; Record_ID=skin_sensitization_invivo_1790; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=4.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Incidence of positive responses; Response=50; Response_Unit=%; Species=Human; Route=Dermal; Reference=Majors 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area	64.8	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7831; Record_ID=skin_sensitization_invivo_1772; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area; Response=64.8; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area	324	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7863; Record_ID=skin_sensitization_invivo_1778; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.5; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area; Response=324; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area	775	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7910; Record_ID=skin_sensitization_invivo_1785; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=1.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Induction dose per skin area; Response=775; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=RIFM 1965; https://www.rifm.org/rifm-science-database.php#gsc.tab=0|Gerberick et al. 2001; 11526521; 10.1053/ajcd.2001.23926|Basketter et al. 2005; 16283904; 10.1111/j.0105-1873.2005.00707.x|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area	1296	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7876; Record_ID=skin_sensitization_invivo_1779; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=2.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area; Response=1296; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area	range3100	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7899; Record_ID=skin_sensitization_invivo_1783; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Induction dose per skin area; Response_Modifier=range; Response=3100 - 6200; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Majors 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area	6200	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7888; Record_ID=skin_sensitization_invivo_1781; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=8.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Induction dose per skin area; Response=6200; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Maibach 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, 5% incidence of positive responses	27	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7859; Record_ID=skin_sensitization_invivo_1775; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area, 5% incidence of positive responses; Response=27; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, 5% incidence of positive responses	81	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7843; Record_ID=skin_sensitization_invivo_1772; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area, 5% incidence of positive responses; Response=81; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, 5% incidence of positive responses	202.5	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7874; Record_ID=skin_sensitization_invivo_1778; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.5; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area, 5% incidence of positive responses; Response=202.5; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, 5% incidence of positive responses	310	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7962; Record_ID=skin_sensitization_invivo_1790; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=4.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Induction dose per skin area, 5% incidence of positive responses; Response=310; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Majors 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, 5% incidence of positive responses	range326	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7911; Record_ID=skin_sensitization_invivo_1783; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Induction dose per skin area, 5% incidence of positive responses; Response_Modifier=range; Response=326 - 652; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Majors 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, 5% incidence of positive responses	777.6	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7882; Record_ID=skin_sensitization_invivo_1779; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=2.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area, 5% incidence of positive responses; Response=777.6; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, 5% incidence of positive responses	2893	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7895; Record_ID=skin_sensitization_invivo_1781; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=8.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Induction dose per skin area, 5% incidence of positive responses; Response=2893; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Maibach 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, one positive response	21.6	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7855; Record_ID=skin_sensitization_invivo_1775; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area, one positive response; Response=21.6; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, one positive response	162	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7871; Record_ID=skin_sensitization_invivo_1778; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.5; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area, one positive response; Response=162; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, one positive response	range163	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7907; Record_ID=skin_sensitization_invivo_1783; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Induction dose per skin area, one positive response; Response_Modifier=range; Response=163 - 326; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Majors 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, one positive response	620	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7958; Record_ID=skin_sensitization_invivo_1790; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=4.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Induction dose per skin area, one positive response; Response=620; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Majors 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, one positive response	648	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7880; Record_ID=skin_sensitization_invivo_1779; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=2.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Induction dose per skin area, one positive response; Response=648; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Induction dose per skin area, one positive response	1033	ug/cm2	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7892; Record_ID=skin_sensitization_invivo_1781; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=8.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Induction dose per skin area, one positive response; Response=1033; Response_Unit=ug/cm2; Species=Human; Route=Dermal; Reference=Maibach 1971: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Max stimulation index	20.5	ratio	Mouse	Dermal	-	In Vivo; LLNA2013; LLNA	sheet=Data_invivo; excel_row=12876; Record_ID=skin_sensitization_invivo_493; Data_Type=In Vivo; Internal_Data_Source=LLNA2013; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=LLNA; Endpoint=Max stimulation index; Response=20.5; Response_Unit=Ratio; Species=Mouse; Route=Dermal; Reference=ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Relative reliability score	3	unitless	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Maximization Test	sheet=Data_invivo; excel_row=7845; Record_ID=skin_sensitization_invivo_1772; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=0.1; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Maximization Test; Endpoint=Relative reliability score; Response=3; Response_Unit=Unitless; Species=Human; Route=Dermal; Reference=Kligman 1972: report to RIFM|Opdyke 1979; Not available; 10.1016/0015-6264(79)90288-8|Api et al. 2015; 25430073; 10.3109/15569527.2014.979425; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836
NTP_ICE_skin_sensitization	Relative reliability score	4	unitless	Human	Dermal	-	In Vivo; HPPT2020WIP; Human Repeat Insult Patch Test	sheet=Data_invivo; excel_row=7887; Record_ID=skin_sensitization_invivo_1780; Data_Type=In Vivo; Internal_Data_Source=HPPT2020WIP; Concentration=5.0; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID6024836; Assay=Human Repeat Insult Patch Test; Endpoint=Relative reliability score; Response=4; Response_Unit=Unitless; Species=Human; Route=Dermal; Reference=Steltenkamp et al. 1980; 7461522; 10.1016/0015-6264(80)90199-6|ICCVAM 2009; Not available; https://ntp.niehs.nih.gov/iccvam/docs/immunotox_docs/llna-ps/llnaperfstds.pdf; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID6024836; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID6024836

SCCS_vision_codex 36 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
SCCS_vision_codex	NOAEL	=3	µg/cm2	human	-	-	sensitisation	{"dose":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Ta...","effect":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Table 5). The ranges assigned to LLNA EC3 values align with those of ECETOC (2003) and Kimber et al., (2003). Table A.2: Potency category dose ranges Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Extreme < 25 < 25 Strong 25 – 500 25 - < 250","page":60,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_007"}
SCCS_vision_codex	NOAEL	=3	µg/cm2	human	-	-	sensitisation	{"dose":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Ta...","effect":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Table 5). The ranges assigned to LLNA EC3 values align with those of ECETOC (2003) and Kimber et al., (2003). Table A.2: Potency category dose ranges Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Extreme < 25 < 25 Strong 25 – 500 25 - < 250","page":60,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_007"}
SCCS_vision_codex	NOAEL	=3	µg/cm2	human	-	-	sensitisation	{"dose":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Ta...","effect":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Table 5). The ranges assigned to LLNA EC3 values align with those of ECETOC (2003) and Kimber et al., (2003). Table A.2: Potency category dose ranges Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Extreme < 25 < 25 Strong 25 – 500 25 - < 250","page":60,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_007"}
SCCS_vision_codex	NOAEL	=3	µg/cm2	human	-	-	sensitisation	{"dose":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Ta...","effect":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Table 5). The ranges assigned to LLNA EC3 values align with those of ECETOC (2003) and Kimber et al., (2003). Table A.2: Potency category dose ranges Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Extreme < 25 < 25 Strong 25 – 500 25 - < 250","page":60,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_007"}
SCCS_vision_codex	NOAEL	=61	-	human	-	-	sensitisation	{"effect":"Unlabeled table on page 61: Potency Category | Human NOEL (HRIPT/HMT) (µg/cm2) | LLNA EC3 (µg/cm2)","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_009"}
SCCS_vision_codex	NOAEL	=61	-	human	-	-	sensitisation	{"effect":"Unlabeled table on page 61: Potency Category | Human NOEL (HRIPT/HMT) (µg/cm2) | LLNA EC3 (µg/cm2)","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_009"}
SCCS_vision_codex	NOAEL	=61	-	human	-	-	sensitisation	{"effect":"Unlabeled table on page 61: Potency Category | Human NOEL (HRIPT/HMT) (µg/cm2) | LLNA EC3 (µg/cm2)","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_009"}
SCCS_vision_codex	NOAEL	=61	-	human	-	-	sensitisation	{"effect":"Unlabeled table on page 61: Potency Category | Human NOEL (HRIPT/HMT) (µg/cm2) | LLNA EC3 (µg/cm2)","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_009"}
SCCS_vision_codex	NOAEL	=500	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Moderate | 500 – 2500 | 250 - < 2500","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_010"}
SCCS_vision_codex	NOAEL	=500	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Moderate | 500 – 2500 | 250 - < 2500","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_010"}
SCCS_vision_codex	NOAEL	=500	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Moderate | 500 – 2500 | 250 - < 2500","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_010"}
SCCS_vision_codex	NOAEL	=500	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Moderate | 500 – 2500 | 250 - < 2500","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_010"}
SCCS_vision_codex	NOAEL	=1400	µg/cm2	human	-	-	sensitisation	{"dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","effect":"s (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensitisation in healthy volunteers. Altogether in this dossier, five HRIPT studies have been performed, four of them are insuff","page":18,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_002"}
SCCS_vision_codex	NOAEL	=1400	µg/cm2	human	-	-	sensitisation	{"dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","effect":"s (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensitisation in healthy volunteers. Altogether in this dossier, five HRIPT studies have been performed, four of them are insuff","page":18,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_002"}
SCCS_vision_codex	NOAEL	=1400	µg/cm2	human	-	-	sensitisation	{"dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","effect":"s (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensitisation in healthy volunteers. Altogether in this dossier, five HRIPT studies have been performed, four of them are insuff","page":18,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_002"}
SCCS_vision_codex	NOAEL	=1400	µg/cm2	human	-	-	sensitisation	{"dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","effect":"s (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensitisation in healthy volunteers. Altogether in this dossier, five HRIPT studies have been performed, four of them are insuff","page":18,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_002"}
SCCS_vision_codex	NOAEL	=1417	μg/cm2	human	-	-	sensitisation	{"dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","effect":"these tests were not designed to predict potency classification. 3.3.1.2.3 Human studies Human repeat insult patch tests (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensit","page":18,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_001"}
SCCS_vision_codex	NOAEL	=1417	μg/cm2	human	-	-	sensitisation	{"dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","effect":"these tests were not designed to predict potency classification. 3.3.1.2.3 Human studies Human repeat insult patch tests (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensit","page":18,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_001"}
SCCS_vision_codex	NOAEL	=1417	μg/cm2	human	-	-	sensitisation	{"dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","effect":"these tests were not designed to predict potency classification. 3.3.1.2.3 Human studies Human repeat insult patch tests (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensit","page":18,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_001"}
SCCS_vision_codex	NOAEL	=1417	μg/cm2	human	-	-	sensitisation	{"dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","effect":"these tests were not designed to predict potency classification. 3.3.1.2.3 Human studies Human repeat insult patch tests (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensit","page":18,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_001"}
SCCS_vision_codex	NOAEL	=1666	-	guinea pig	-	-	sensitisation	{"effect":"SCCS/1666/24 Final Opinion Opinion on Citral (CAS No. 5392-40-5, EC No. 226-394-6) - sensitisation endpoint _________________________________________________________________________________ 61 Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Moderate 500 – 2500 250 - < 2500 Weak >2500 - 10,000 2500 - 25,000 Extremely weak > 10,000 Non-sensitizer Negative Guinea pig tests, specifically the Guinea Pig Maximization Test (GPMT) and the Buehler test, were designed for the purpose of hazard identification. While they are not well suited for potency categorization, several schemes have been published that utilize the induction concentration and the incidence of positive responses to provide an estimate of the relativ","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_008"}
SCCS_vision_codex	NOAEL	=1666	-	guinea pig	-	-	sensitisation	{"effect":"SCCS/1666/24 Final Opinion Opinion on Citral (CAS No. 5392-40-5, EC No. 226-394-6) - sensitisation endpoint _________________________________________________________________________________ 61 Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Moderate 500 – 2500 250 - < 2500 Weak >2500 - 10,000 2500 - 25,000 Extremely weak > 10,000 Non-sensitizer Negative Guinea pig tests, specifically the Guinea Pig Maximization Test (GPMT) and the Buehler test, were designed for the purpose of hazard identification. While they are not well suited for potency categorization, several schemes have been published that utilize the induction concentration and the incidence of positive responses to provide an estimate of the relativ","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_008"}
SCCS_vision_codex	NOAEL	=1666	-	guinea pig	-	-	sensitisation	{"effect":"SCCS/1666/24 Final Opinion Opinion on Citral (CAS No. 5392-40-5, EC No. 226-394-6) - sensitisation endpoint _________________________________________________________________________________ 61 Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Moderate 500 – 2500 250 - < 2500 Weak >2500 - 10,000 2500 - 25,000 Extremely weak > 10,000 Non-sensitizer Negative Guinea pig tests, specifically the Guinea Pig Maximization Test (GPMT) and the Buehler test, were designed for the purpose of hazard identification. While they are not well suited for potency categorization, several schemes have been published that utilize the induction concentration and the incidence of positive responses to provide an estimate of the relativ","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_008"}
SCCS_vision_codex	NOAEL	=1666	-	guinea pig	-	-	sensitisation	{"effect":"SCCS/1666/24 Final Opinion Opinion on Citral (CAS No. 5392-40-5, EC No. 226-394-6) - sensitisation endpoint _________________________________________________________________________________ 61 Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Moderate 500 – 2500 250 - < 2500 Weak >2500 - 10,000 2500 - 25,000 Extremely weak > 10,000 Non-sensitizer Negative Guinea pig tests, specifically the Guinea Pig Maximization Test (GPMT) and the Buehler test, were designed for the purpose of hazard identification. While they are not well suited for potency categorization, several schemes have been published that utilize the induction concentration and the incidence of positive responses to provide an estimate of the relativ","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_008"}
SCCS_vision_codex	NOAEL	>2500	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Weak | >2500 - 10,000 | 2500 - 25,000","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_011"}
SCCS_vision_codex	NOAEL	>2500	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Weak | >2500 - 10,000 | 2500 - 25,000","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_011"}
SCCS_vision_codex	NOAEL	>2500	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Weak | >2500 - 10,000 | 2500 - 25,000","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_011"}
SCCS_vision_codex	NOAEL	>2500	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Weak | >2500 - 10,000 | 2500 - 25,000","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_011"}
SCCS_vision_codex	NOAEL	=3448	μg/cm2	human	dermal	-	sensitisation	{"dose":"There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency.","effect":"ion with respect to relative sensitizing potency. Under the conditions of the Human Maximization test, Citral in petrolatum induced skin sensitisation at concentrations ranging from 8% (5517 μg/cm2) to 2% (1379 μg/cm2). Only the study using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation in any of the 25 volunteers. Conclusion It was demonstrated that Citral has the potential to induce dermal sensitisation in humans. Except for the isolated study using butylene glycol as a vehicle, a NOEL was not demonstrated. There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency. However, the trend of the data suggests a threshold around 0.5% - 1.0%, which, given the greater sensitivity of this assay compared to the HRIPT, but with the use of petrolatum as a vehicle (which was common at that time) suggests results consistent with the HRIPT. SCCS comments on the Hu","page":19,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_004"}
SCCS_vision_codex	NOAEL	=3448	μg/cm2	human	dermal	-	sensitisation	{"dose":"There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency.","effect":"ion with respect to relative sensitizing potency. Under the conditions of the Human Maximization test, Citral in petrolatum induced skin sensitisation at concentrations ranging from 8% (5517 μg/cm2) to 2% (1379 μg/cm2). Only the study using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation in any of the 25 volunteers. Conclusion It was demonstrated that Citral has the potential to induce dermal sensitisation in humans. Except for the isolated study using butylene glycol as a vehicle, a NOEL was not demonstrated. There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency. However, the trend of the data suggests a threshold around 0.5% - 1.0%, which, given the greater sensitivity of this assay compared to the HRIPT, but with the use of petrolatum as a vehicle (which was common at that time) suggests results consistent with the HRIPT. SCCS comments on the Hu","page":19,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_004"}
SCCS_vision_codex	NOAEL	=3448	μg/cm2	human	dermal	-	sensitisation	{"dose":"There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency.","effect":"ion with respect to relative sensitizing potency. Under the conditions of the Human Maximization test, Citral in petrolatum induced skin sensitisation at concentrations ranging from 8% (5517 μg/cm2) to 2% (1379 μg/cm2). Only the study using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation in any of the 25 volunteers. Conclusion It was demonstrated that Citral has the potential to induce dermal sensitisation in humans. Except for the isolated study using butylene glycol as a vehicle, a NOEL was not demonstrated. There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency. However, the trend of the data suggests a threshold around 0.5% - 1.0%, which, given the greater sensitivity of this assay compared to the HRIPT, but with the use of petrolatum as a vehicle (which was common at that time) suggests results consistent with the HRIPT. SCCS comments on the Hu","page":19,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_004"}
SCCS_vision_codex	NOAEL	=3448	μg/cm2	human	dermal	-	sensitisation	{"dose":"There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency.","effect":"ion with respect to relative sensitizing potency. Under the conditions of the Human Maximization test, Citral in petrolatum induced skin sensitisation at concentrations ranging from 8% (5517 μg/cm2) to 2% (1379 μg/cm2). Only the study using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation in any of the 25 volunteers. Conclusion It was demonstrated that Citral has the potential to induce dermal sensitisation in humans. Except for the isolated study using butylene glycol as a vehicle, a NOEL was not demonstrated. There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency. However, the trend of the data suggests a threshold around 0.5% - 1.0%, which, given the greater sensitivity of this assay compared to the HRIPT, but with the use of petrolatum as a vehicle (which was common at that time) suggests results consistent with the HRIPT. SCCS comments on the Hu","page":19,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_004"}
SCCS_vision_codex	NOAEL	>10000	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Extremely weak | > 10,000","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_012"}
SCCS_vision_codex	NOAEL	>10000	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Extremely weak | > 10,000","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_012"}
SCCS_vision_codex	NOAEL	>10000	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Extremely weak | > 10,000","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_012"}
SCCS_vision_codex	NOAEL	>10000	-	-	-	-	NOAEL study	{"effect":"Unlabeled table on page 61: Extremely weak | > 10,000","page":61,"pdf":"sccs_o_287.pdf","row_type":"noael_study","study_id":"sccs_o_287_noael_012"}

ToxRefDB_ToxRefDB_v3_pod.csv 12 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
ToxRefDB_ToxRefDB_v3_pod.csv	LEL	=60	mg/kg bw/day	mouse (b6c3f1; B6C3F1)	oral	0 day to 2 year	CHR	study_id=5254; toxval_study_source_id=studyid5254_Adult_F0_F_systemic; toxval_effect_list=pathology microscopic-kidney-mineralization|in life observation-body weight-body weight|pathology microscopic-bone-fibrosis|pathology gross-full gross necropsy-lymphoma malignant|pathology microscopic-kidney-nephropathy; dose_level=1; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Mouse Chronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Capsule; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	LEL	=120	mg/kg bw/day	mouse (b6c3f1; B6C3F1)	oral	0 day to 2 year	CHR	study_id=5254; toxval_study_source_id=studyid5254_Adult_F0_M_systemic; toxval_effect_list=in life observation-body weight-body weight|pathology microscopic-adrenal gland-hyperplasia; dose_level=2; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Mouse Chronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Capsule; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	LEL	=210	mg/kg bw/day	rat (fischer; Fischer 344)	oral	0 day to 2 year	CHR	study_id=5252; toxval_study_source_id=studyid5252_Adult_F0_F_systemic; toxval_effect_list=pathology microscopic-adrenal gland-angiectasis|in life observation-body weight-body weight; dose_level=3; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Rat Chronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Capsule; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	LEL	=335	mg/kg bw/day	rat (fischer; Fischer 344)	oral	0 day to 14 week	SUB	study_id=5248; toxval_study_source_id=studyid5248_Adult_F0_F_systemic; toxval_effect_list=in life observation-body weight-body weight|in life observation-body weight-body weight gain|pathology microscopic-bone marrow-atrophy|in life observation-food consumption-food consumption|in life observation-clinical signs-[other]|pathology microscopic-bone marrow-hemorrhage|in life observation-clinical signs-impaired reflex, nos|in life observation-clinical signs-hunched posture|in life observation-mortality-mortality|pathology microscopic-stomach-hyperkeratosis|in life observation-clinical signs-lethargy|pathology microscopic-stomach-hyperplasia|pathology microscopic-thymus-atrophy; dose_level=1; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Rat Subchronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Feed; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	LEL	=345	mg/kg bw/day	rat (fischer; Fischer 344)	oral	0 day to 14 week	SUB	study_id=5248; toxval_study_source_id=studyid5248_Adult_F0_M_systemic; toxval_effect_list=in life observation-body weight-body weight|in life observation-body weight-body weight gain|pathology microscopic-kidney-nephropathy|pathology microscopic-stomach-hyperkeratosis|in life observation-clinical signs-[other]|pathology microscopic-bone marrow-atrophy|in life observation-mortality-mortality|in life observation-clinical signs-lethargy|in life observation-clinical signs-hunched posture|in life observation-clinical signs-impaired reflex, nos|pathology microscopic-stomach-hyperplasia|in life observation-food consumption-food consumption|pathology microscopic-thymus-atrophy|pathology microscopic-testes-aspermia|pathology microscopic-bone marrow-hemorrhage; dose_level=1; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Rat Subchronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Feed; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	LEL	=745	mg/kg bw/day	mouse (b6c3f1; B6C3F1)	oral	0 day to 14 week	SUB	study_id=5251; toxval_study_source_id=studyid5251_Adult_F0_M_systemic; toxval_effect_list=in life observation-body weight-body weight gain|in life observation-body weight-body weight|in life observation-food consumption-food consumption|hematology-leukocyte (wbc) count differential-leukocyte (wbc)|hematology-lymphocyte-lymphocyte|in life observation-mortality-mortality; dose_level=1; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Mouse Subchronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Feed; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	LEL	=790	mg/kg bw/day	mouse (b6c3f1; B6C3F1)	oral	0 day to 14 week	SUB	study_id=5251; toxval_study_source_id=studyid5251_Adult_F0_F_systemic; toxval_effect_list=in life observation-body weight-body weight gain|in life observation-body weight-body weight|in life observation-food consumption-food consumption|hematology-leukocyte (wbc) count differential-leukocyte (wbc)|pathology microscopic-ovary-atrophy|hematology-lymphocyte-lymphocyte; dose_level=1; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Mouse Subchronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Feed; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	LOAEL	=675	mg/kg bw/day	rat (fischer; Fischer 344)	oral	0 day to 14 week	SUB	study_id=5248; toxval_study_source_id=studyid5248_Adult_F0_F_systemic; toxval_effect_list=in life observation-body weight-body weight gain; dose_level=2; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Rat Subchronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Feed; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	LOAEL	=820	mg/kg bw/day	rat (fischer; Fischer 344)	oral	0 day to 14 week	SUB	study_id=5248; toxval_study_source_id=studyid5248_Adult_F0_M_systemic; toxval_effect_list=pathology microscopic-kidney-nephropathy|in life observation-body weight-body weight gain|in life observation-body weight-body weight; dose_level=2; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Rat Subchronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Feed; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	NEL	>0	mg/kg bw/day	rat (fischer; Fischer 344)	oral	0 day to 14 week	SUB	study_id=5248; toxval_study_source_id=studyid5248_Adult_F0_F_systemic; toxval_effect_list=pathology microscopic-stomach-hyperkeratosis|in life observation-mortality-mortality|pathology microscopic-bone marrow-atrophy|in life observation-clinical signs-hunched posture|in life observation-clinical signs-impaired reflex, nos|pathology microscopic-bone marrow-hemorrhage|in life observation-clinical signs-[other]|in life observation-body weight-body weight gain|pathology microscopic-thymus-atrophy|pathology microscopic-stomach-hyperplasia|in life observation-food consumption-food consumption|in life observation-clinical signs-lethargy|in life observation-body weight-body weight; dose_level=0; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Rat Subchronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Feed; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	NEL	=50	mg/kg bw/day	rat (fischer; Fischer 344)	oral	0 day to 2 year	CHR	study_id=5252; toxval_study_source_id=studyid5252_Adult_F0_M_systemic; toxval_effect_list=pathology microscopic-kidney-mineralization|in life observation-body weight-body weight; dose_level=1; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Rat Chronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Capsule; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5
ToxRefDB_ToxRefDB_v3_pod.csv	NEL	=100	mg/kg bw/day	rat (fischer; Fischer 344)	oral	0 day to 2 year	CHR	study_id=5252; toxval_study_source_id=studyid5252_Adult_F0_F_systemic; toxval_effect_list=in life observation-body weight-body weight|pathology microscopic-adrenal gland-angiectasis; dose_level=2; study_year=2003; study_citation=(2003) 'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).' (Rat Chronic portion); dsstox_substance_id=DTXSID6024836; admin_method=Capsule; cas_source=toxval_ToxRefDB.xlsx:DTXSID; blob_url=https://clowder.edap-cluster.com/files/688cbadae4b02565bc3f8c07/blob; blob_sha256=69dd2da06ffc6a98a1bed684c347d8b2f31e6d35d607d4f2f83ebb6845a708d5

ToxValDB_ECOTOX 1 endpoint

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
ToxValDB_ECOTOX	LOEL	=20	%	Mouse	dermal	short-term; 16 days	short-term	LONG_REF=Contact Dermatitis15(1): 17-23 Maisey,J., and K. Miller Assessment of the Ability of Mice Fed on Vitamin A Supplemented Diet to Respond to a Variety of Potential Contact Sensitizers 1986; TITLE=Assessment of the Ability of Mice Fed on Vitamin A Supplemented Diet to Respond to a Variety of Potential Contact Sensitizers; AUTHOR=Maisey,J., and K. Miller; DOI=10.1111/j.1600-0536.1986.tb01255.x; QUALITY=Control type: Carrier or solvent control; EXTERNAL_SOURCE_ID=81179; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1986; ORIGINAL_YEAR=1986; TOXICOLOGICAL_EFFECT=Immunological: Thickness; TOXICOLOGICAL_EFFECT_CATEGORY=other; STUDY_GROUP=ECOTOX:15608174:F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=651e9a260ec697c4c205fe85483059d4

ToxValDB_EFSA 1 endpoint

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
ToxValDB_EFSA	NOAEL	=345	mg/kg bw/day	Rat	oral	chronic; 14 weeks	chronic	LONG_REF=EFSA FEEDAP (2016). Safety and efficacy of alpha,beta-unsaturated straight-chain and branched-chain aliphatic primary alcohols, aldehydes, acids and esters belonging to chemical group 3 when used as flavourings for all animal species. doi:10.2903/j.efsa.2016.4512.; TITLE=Safety and efficacy of alpha,beta-unsaturated straight-chain and branched-chain aliphatic primary alcohols, aldehydes, acids and esters belonging to chemical group 3 when used as flavourings for all animal species; AUTHOR=EFSA FEEDAP; DOI=doi:10.2903/j.efsa.2016.4512; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/65201d30e4b0f0a60ddd1165; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://zenodo.org/record/5076033#.Y9fEoXbMI2z; YEAR=2016; ORIGINAL_YEAR=2016; TOXICOLOGICAL_EFFECT=histopathology: nonneoplastic; STUDY_GROUP=EFSA:15621848:M:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_46bea94eb298cd089c84e427b3f032c4

ToxValDB_EPA_TSCA_8e 1 endpoint

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
ToxValDB_EPA_TSCA_8e	NEL	=200	mg/kg bw/day	Rabbit	oral	short-term (developmental); 23 days	reproduction developmental	STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/68c96d15e4b02565fc7d3269; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://chemview.epa.gov; SUBSOURCE_URL=https://chemview.epa.gov/chemview/proxy?filename=8EHQ-16-20502_2155_C.pdf; TOXICOLOGICAL_EFFECT=F1: no evidence of selective developmental toxicity; STUDY_GROUP=EPA TSCA 8e:15956451:M/F:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_4e6e1be54fc0f04d5fb79e1aa745034d

ToxValDB_GESTIS_DNEL 1 endpoint

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
ToxValDB_GESTIS_DNEL	DNEL systemic	=9	mg/m3	Human	inhalation	-	Toxicity Value	STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6543dd69e4b045b9ff7cd87e; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.dguv.de/ifa/gestis/gestis-dnel-liste/index-2.jsp; STUDY_GROUP=GESTIS DNEL:15630737:-:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_d86a625c047a2fd5602673ea1a8ae3e3

ToxValDB_HESS 1 endpoint

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
ToxValDB_HESS	NOEL	<335	mg/kg bw/day	Rat	oral	chronic; 14 weeks	chronic	STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/60da0df3e4b0a676289de9dc; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.nite.go.jp/en/chem/qsar/hess_update-e.html; TOXICOLOGICAL_EFFECT=Blood Chemistry: BUN increase; TOXICOLOGICAL_EFFECT_CATEGORY=clinical chemistry; STUDY_GROUP=HESS:15638949:M/F:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, and this record was expert reviewed; QC_STATUS=pass; SOURCE_HASH=ToxValhc_ea956633d7bbb69c53c9112d1bef222d

ToxValDB_ToxRefDB 9 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
ToxValDB_ToxRefDB	LEL	=60	mg/kg bw/day	Mouse	oral	chronic; 2 years	chronic	LONG_REF=(2003) \'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).\' (Mouse Chronic portion); TITLE=NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES); AUTHOR=NTP; EXTERNAL_SOURCE_ID=5254; EXTERNAL_SOURCE_ID_DESC=ToxRefDB Study ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/66bca4a3e4b0a7c65d2a792a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://github.com/USEPA/CompTox-ToxRefDB; YEAR=2003; ORIGINAL_YEAR=2003; TOXICOLOGICAL_EFFECT=systemic: pathology microscopic-bone-fibrosis|systemic: in life observation-body weight-body weight|systemic: pathology microscopic-kidney-mineralization|systemic: pathology microscopic-kidney-nephropathy|systemic: pathology gross-full gross necropsy-lymphoma malignant; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|cancer|nonneoplastic histopathology; STUDY_GROUP=ToxRefDB_dup_-_15708827_15708828:F:F0adult; QC_CATEGORY=Data source QC'd by data provider prior to ToxRefDB import; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_f70ed96a04e19e0e4cacc173a05ccb63
ToxValDB_ToxRefDB	LEL	=120	mg/kg bw/day	Mouse	oral	chronic; 2 years	chronic	LONG_REF=(2003) \'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).\' (Mouse Chronic portion); TITLE=NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES); AUTHOR=NTP; EXTERNAL_SOURCE_ID=5254; EXTERNAL_SOURCE_ID_DESC=ToxRefDB Study ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/66bca4a3e4b0a7c65d2a792a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://github.com/USEPA/CompTox-ToxRefDB; YEAR=2003; ORIGINAL_YEAR=2003; TOXICOLOGICAL_EFFECT=systemic: in life observation-body weight-body weight|systemic: pathology microscopic-adrenal gland-hyperplasia; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|nonneoplastic histopathology; STUDY_GROUP=ToxRefDB_dup_-_15708829_15708830:M:F0adult; QC_CATEGORY=Data source QC'd by data provider prior to ToxRefDB import; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_2c69543d52f6f2b0e7f38ed5fba7de30
ToxValDB_ToxRefDB	LEL	=210	mg/kg bw/day	Rat	oral	chronic; 2 years	chronic	LONG_REF=(2003) \'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).\' (Rat Chronic portion); TITLE=NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES); AUTHOR=NTP; EXTERNAL_SOURCE_ID=5252; EXTERNAL_SOURCE_ID_DESC=ToxRefDB Study ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/66bca4a3e4b0a7c65d2a792a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://github.com/USEPA/CompTox-ToxRefDB; YEAR=2003; ORIGINAL_YEAR=2003; TOXICOLOGICAL_EFFECT=systemic: pathology microscopic-adrenal gland-angiectasis|systemic: in life observation-body weight-body weight; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|nonneoplastic histopathology; STUDY_GROUP=ToxRefDB_dup_-_15708821_15708822_15708823_15708824:F:F0adult; QC_CATEGORY=Data source QC'd by data provider prior to ToxRefDB import; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_b9a0b1b779c37faf514f983b1b738ef9
ToxValDB_ToxRefDB	LEL	=745	mg/kg bw/day	Mouse	oral	chronic; 14 weeks	chronic	LONG_REF=(2003) \'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).\' (Mouse Subchronic portion); TITLE=NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES); AUTHOR=NTP; EXTERNAL_SOURCE_ID=5251; EXTERNAL_SOURCE_ID_DESC=ToxRefDB Study ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/66bca4a3e4b0a7c65d2a792a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://github.com/USEPA/CompTox-ToxRefDB; YEAR=2003; ORIGINAL_YEAR=2003; TOXICOLOGICAL_EFFECT=systemic: in life observation-body weight-body weight|systemic: in life observation-food consumption-food consumption|systemic: in life observation-body weight-body weight gain|systemic: hematology-leukocyte (wbc) count differential-leukocyte (wbc)|systemic: hematology-lymphocyte-lymphocyte|systemic: in life observation-mortality-mortality; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|food and/or water consumption|hematology|mortality/survival; STUDY_GROUP=ToxRefDB_dup_-_15708819_15708820:M:F0adult; QC_CATEGORY=Data source QC'd by data provider prior to ToxRefDB import; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_a1c0aa46b7225a4120541b5e160e9ca7
ToxValDB_ToxRefDB	LEL	=790	mg/kg bw/day	Mouse	oral	chronic; 14 weeks	chronic	LONG_REF=(2003) \'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).\' (Mouse Subchronic portion); TITLE=NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES); AUTHOR=NTP; EXTERNAL_SOURCE_ID=5251; EXTERNAL_SOURCE_ID_DESC=ToxRefDB Study ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/66bca4a3e4b0a7c65d2a792a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://github.com/USEPA/CompTox-ToxRefDB; YEAR=2003; ORIGINAL_YEAR=2003; TOXICOLOGICAL_EFFECT=systemic: in life observation-food consumption-food consumption|systemic: in life observation-body weight-body weight gain|systemic: in life observation-body weight-body weight|systemic: hematology-lymphocyte-lymphocyte|systemic: hematology-leukocyte (wbc) count differential-leukocyte (wbc)|systemic: pathology microscopic-ovary-atrophy; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|food and/or water consumption|hematology|nonneoplastic histopathology; STUDY_GROUP=ToxRefDB_dup_-_15708817_15708818:F:F0adult; QC_CATEGORY=Data source QC'd by data provider prior to ToxRefDB import; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_6d3e8fbc74d61f74d0f5abe75ffa4870
ToxValDB_ToxRefDB	LOAEL	=675	mg/kg bw/day	Rat	oral	chronic; 14 weeks	chronic	LONG_REF=(2003) \'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).\' (Rat Subchronic portion); TITLE=NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES); AUTHOR=NTP; EXTERNAL_SOURCE_ID=5248; EXTERNAL_SOURCE_ID_DESC=ToxRefDB Study ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/66bca4a3e4b0a7c65d2a792a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://github.com/USEPA/CompTox-ToxRefDB; YEAR=2003; ORIGINAL_YEAR=2003; TOXICOLOGICAL_EFFECT=systemic: in life observation-body weight-body weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ToxRefDB_dup_-_15708811_15708812_15708813:F:F0adult; QC_CATEGORY=Data source QC'd by data provider prior to ToxRefDB import; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_064d8db124cb322170df4b54f7acb260
ToxValDB_ToxRefDB	LOAEL	=820	mg/kg bw/day	Rat	oral	chronic; 14 weeks	chronic	LONG_REF=(2003) \'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).\' (Rat Subchronic portion); TITLE=NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES); AUTHOR=NTP; EXTERNAL_SOURCE_ID=5248; EXTERNAL_SOURCE_ID_DESC=ToxRefDB Study ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/66bca4a3e4b0a7c65d2a792a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://github.com/USEPA/CompTox-ToxRefDB; YEAR=2003; ORIGINAL_YEAR=2003; TOXICOLOGICAL_EFFECT=systemic: in life observation-body weight-body weight|systemic: in life observation-body weight-body weight gain|systemic: pathology microscopic-kidney-nephropathy; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|nonneoplastic histopathology; STUDY_GROUP=ToxRefDB_dup_-_15708814_15708815_15708816:M:F0adult; QC_CATEGORY=Data source QC'd by data provider prior to ToxRefDB import; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_8746bd639e3fab44baa7f28bef81afcc
ToxValDB_ToxRefDB	NEL	=50	mg/kg bw/day	Rat	oral	chronic; 2 years	chronic	LONG_REF=(2003) \'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).\' (Rat Chronic portion); TITLE=NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES); AUTHOR=NTP; EXTERNAL_SOURCE_ID=5252; EXTERNAL_SOURCE_ID_DESC=ToxRefDB Study ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/66bca4a3e4b0a7c65d2a792a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://github.com/USEPA/CompTox-ToxRefDB; YEAR=2003; ORIGINAL_YEAR=2003; TOXICOLOGICAL_EFFECT=systemic: pathology microscopic-kidney-mineralization|systemic: in life observation-body weight-body weight; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|nonneoplastic histopathology; STUDY_GROUP=ToxRefDB_dup_-_15708825_15708826:M:F0adult; QC_CATEGORY=Data source QC'd by data provider prior to ToxRefDB import; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_58821f43841f14a0ae3f8bc59977fe3e
ToxValDB_ToxRefDB	NEL	=100	mg/kg bw/day	Rat	oral	chronic; 2 years	chronic	LONG_REF=(2003) \'NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES).\' (Rat Chronic portion); TITLE=NTP TECHNICAL REPORT ON THE TOXICOLOGY AND CARCINOGENESIS STUDIES OF CITRAL (MICROENCAPSULATED) (CAS NO. 5392-40-5) IN F344/N RATS AND B6C3F1 MICE (FEED STUDIES); AUTHOR=NTP; EXTERNAL_SOURCE_ID=5252; EXTERNAL_SOURCE_ID_DESC=ToxRefDB Study ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/66bca4a3e4b0a7c65d2a792a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://github.com/USEPA/CompTox-ToxRefDB; YEAR=2003; ORIGINAL_YEAR=2003; TOXICOLOGICAL_EFFECT=systemic: pathology microscopic-adrenal gland-angiectasis|systemic: in life observation-body weight-body weight; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|nonneoplastic histopathology; STUDY_GROUP=ToxRefDB_dup_-_15708821_15708822_15708823_15708824:F:F0adult; QC_CATEGORY=Data source QC'd by data provider prior to ToxRefDB import; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_cc08b79a3ec8ff00a273558708ec8fef

ToxValDB_WHO_JECFA_ADI 1 endpoint

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
ToxValDB_WHO_JECFA_ADI	ADI	<=0.5	mg/kg	Human	oral	-	Toxicity Value	STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/650af4bee4b0d99f5a872920; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://apps.who.int/food-additives-contaminants-jecfa-database/; SUBSOURCE_URL=https://apps.who.int/food-additives-contaminants-jecfa-database/Home/Chemical/3485; YEAR=2003; ORIGINAL_YEAR=2003; STUDY_GROUP=WHO JECFA ADI:15715255:-:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_af88f8ad7f485fbcb6f2ef8e9fa34054

UnifiedCodex:SCCS_SHADOW:beta.noael_studies 12 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	-	500	-	-	-	-	-	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=500 – 2500; EFFECT=Unlabeled table on page 61: Moderate | 500 – 2500 | 250 - < 2500; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"","duration":"","effect":"Unlabeled table on page 61: Moderate | 500 – 2500 | 250 - < 2500","endpoint":"","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"","noael_value":"500 – 2500","page":61,"route":"","species":"","study_id":"sccs_o_287_noael_010"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	-	>2500	-	-	-	-	-	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=>2500 - 10,000; EFFECT=Unlabeled table on page 61: Weak | >2500 - 10,000 | 2500 - 25,000; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"","duration":"","effect":"Unlabeled table on page 61: Weak | >2500 - 10,000 | 2500 - 25,000","endpoint":"","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"","noael_value":">2500 - 10,000","page":61,"route":"","species":"","study_id":"sccs_o_287_noael_011"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	-	>10000	-	-	-	-	-	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=> 10,000; EFFECT=Unlabeled table on page 61: Extremely weak | > 10,000; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"","duration":"","effect":"Unlabeled table on page 61: Extremely weak | > 10,000","endpoint":"","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"","noael_value":"> 10,000","page":61,"route":"","species":"","study_id":"sccs_o_287_noael_012"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	sensitisation	3	µg/cm2	human	-	-	sensitisation	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=3; DOSE=EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Ta...; EFFECT=EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Table 5). The ranges assigned to LLNA EC3 values align with those of ECETOC (2003) and Kimber et al., (2003). Table A.2: Potency category dose ranges Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Extreme < 25 < 25 Strong 25 – 500 25 - < 250; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Ta...","duration":"","effect":"EC3 µg/cm2 EC3 (%) EC3 µg/cm2 Extreme ≤ 0.2 ≤ 50 < 0.1 < 25 Strong > 0.2 - ≤ 2.0 > 50 - ≤ 500 ≥ 0.1 - < 1.0 ≥ 25 - < 250 Moderate > 2 > 500 ≥ 1.0 - < 10 ≥ 250 - < 2500 Weak - - ≥ 10 - ≤ 100 ≥ 2500 - ≤ 25,000 Na et al., (2022a) published dose ranges that can be assigned to potency categories based on human data (HRIPT/HMT) and LLNA EC3 values (Table 5). The ranges assigned to LLNA EC3 values align with those of ECETOC (2003) and Kimber et al., (2003). Table A.2: Potency category dose ranges Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Extreme < 25 < 25 Strong 25 – 500 25 - < 250","endpoint":"sensitisation","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"µg/cm2","noael_value":"3","page":60,"route":"","species":"human","study_id":"sccs_o_287_noael_007"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	sensitisation	61	-	human	-	-	sensitisation	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=unclear:Unlabeled table on page 61: Potency Category | Human NOEL (HRIPT/HMT) (µg/cm2) | LLNA EC3 (µg/cm2); EFFECT=Unlabeled table on page 61: Potency Category | Human NOEL (HRIPT/HMT) (µg/cm2) | LLNA EC3 (µg/cm2); CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"","duration":"","effect":"Unlabeled table on page 61: Potency Category | Human NOEL (HRIPT/HMT) (µg/cm2) | LLNA EC3 (µg/cm2)","endpoint":"sensitisation","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"","noael_value":"unclear:Unlabeled table on page 61: Potency Category | Human NOEL (HRIPT/HMT) (µg/cm2) | LLNA EC3 (µg/cm2)","page":61,"route":"","species":"human","study_id":"sccs_o_287_noael_009"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	sensitisation	1400	µg/cm2	human	-	-	sensitisation	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=1400; DOSE=Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.; EFFECT=s (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensitisation in healthy volunteers. Altogether in this dossier, five HRIPT studies have been performed, four of them are insuff; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","duration":"","effect":"s (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensitisation in healthy volunteers. Altogether in this dossier, five HRIPT studies have been performed, four of them are insuff","endpoint":"sensitisation","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"µg/cm2","noael_value":"1400","page":18,"route":"","species":"human","study_id":"sccs_o_287_noael_002"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	sensitisation	1400	µg/cm2	human	-	-	sensitisation	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=1400; DOSE=Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.; EFFECT=ich the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensitisation in healthy volunteers. Altogether in this dossier, five HRIPT studies have been performed, four of them are insufficiently sized according to the current stand; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","duration":"","effect":"ich the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensitisation in healthy volunteers. Altogether in this dossier, five HRIPT studies have been performed, four of them are insufficiently sized according to the current stand","endpoint":"sensitisation","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"µg/cm2","noael_value":"1400","page":18,"route":"","species":"human","study_id":"sccs_o_287_noael_003"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	sensitisation	1417	μg/cm2	human	-	-	sensitisation	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=1417; DOSE=Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.; EFFECT=these tests were not designed to predict potency classification. 3.3.1.2.3 Human studies Human repeat insult patch tests (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensit; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2.","duration":"","effect":"these tests were not designed to predict potency classification. 3.3.1.2.3 Human studies Human repeat insult patch tests (HRIPTs) Five HRIPTs were performed, of which the detailed results are presented in Annex II. Table 2 below describes an overview of these studies, placed in order of induction dose expressed in μg/cm2. The first study presented in the text above (second in table), also the most recent and conducted fully according to the standard protocol with more than 100 volunteers, delivered the highest NOEL of 1417 μg/cm2. The only greater level tested (almost 3-fold higher) gave positive results. Accordingly, the highest NOEL was rounded down to deliver a pragmatic NOEL of 1400 µg/cm2. Table 2: Overview of five HRIPT studies with Citral SCCS comments on HRIPT studies The SCCS has expressed ethical concerns several times about conducting human skin sensitisation tests, including the HRIPT (SCCP, 2008; SCCS, 2015; SCCS, 2018). One of the concerns is that exposure levels used in the test may themselves cause sensit","endpoint":"sensitisation","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"μg/cm2","noael_value":"1417","page":18,"route":"","species":"human","study_id":"sccs_o_287_noael_001"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	sensitisation	1417	μg/cm2	-	-	-	sensitisation	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=1417; EFFECT=t a level of spread of 2-3x above and below the mean is what is typically found. It has been demonstrated also that EC3 values show a good degree of correlation with HRIPT NOELs (Gerberick et al., 2001b; Griem et al., 2003; Schneider and Akkan, 2004; Basketter et al., 2005; Api et al., 2015). In one HRIPT, Citral induced sensitisation at an exposure of 3876 μg/cm2 in 5/8 subjects. No sensitisation was induced in the other four HRIPTs, with the NOELs ranging from 388 μg/cm2 to 1417 μg/cm2. There was no identifiable NOEL among the HMTs conducted with petrolatum vehicle as all tested concentrations resulted in the induction of skin sensitisation. The single HMT using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation. The HRIPT NOEL of 1417 μg/cm2 would be given precedence over the HMT data as the study was conducted in 101 volunteers according to standardized protocol following a published method and was well documented. The Buehler Test results and five of the six GPMTs support the classification of Cit; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"","duration":"","effect":"t a level of spread of 2-3x above and below the mean is what is typically found. It has been demonstrated also that EC3 values show a good degree of correlation with HRIPT NOELs (Gerberick et al., 2001b; Griem et al., 2003; Schneider and Akkan, 2004; Basketter et al., 2005; Api et al., 2015). In one HRIPT, Citral induced sensitisation at an exposure of 3876 μg/cm2 in 5/8 subjects. No sensitisation was induced in the other four HRIPTs, with the NOELs ranging from 388 μg/cm2 to 1417 μg/cm2. There was no identifiable NOEL among the HMTs conducted with petrolatum vehicle as all tested concentrations resulted in the induction of skin sensitisation. The single HMT using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation. The HRIPT NOEL of 1417 μg/cm2 would be given precedence over the HMT data as the study was conducted in 101 volunteers according to standardized protocol following a published method and was well documented. The Buehler Test results and five of the six GPMTs support the classification of Cit","endpoint":"sensitisation","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"μg/cm2","noael_value":"1417","page":34,"route":"","species":"","study_id":"sccs_o_287_noael_005"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	sensitisation	1417	μg/cm2	-	-	-	sensitisation	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=1417; EFFECT=an, 2004; Basketter et al., 2005; Api et al., 2015). In one HRIPT, Citral induced sensitisation at an exposure of 3876 μg/cm2 in 5/8 subjects. No sensitisation was induced in the other four HRIPTs, with the NOELs ranging from 388 μg/cm2 to 1417 μg/cm2. There was no identifiable NOEL among the HMTs conducted with petrolatum vehicle as all tested concentrations resulted in the induction of skin sensitisation. The single HMT using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation. The HRIPT NOEL of 1417 μg/cm2 would be given precedence over the HMT data as the study was conducted in 101 volunteers according to standardized protocol following a published method and was well documented. The Buehler Test results and five of the six GPMTs support the classification of Citral as a weak skin sensitiser. One GPMT classified Citral as a moderate sensitiser. None of these studies were judged to require a revision to LLNA/HRIPT based NESIL. Given all the above, the weight of evidence leads to a NESIL of 1400 μg/c; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"","duration":"","effect":"an, 2004; Basketter et al., 2005; Api et al., 2015). In one HRIPT, Citral induced sensitisation at an exposure of 3876 μg/cm2 in 5/8 subjects. No sensitisation was induced in the other four HRIPTs, with the NOELs ranging from 388 μg/cm2 to 1417 μg/cm2. There was no identifiable NOEL among the HMTs conducted with petrolatum vehicle as all tested concentrations resulted in the induction of skin sensitisation. The single HMT using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation. The HRIPT NOEL of 1417 μg/cm2 would be given precedence over the HMT data as the study was conducted in 101 volunteers according to standardized protocol following a published method and was well documented. The Buehler Test results and five of the six GPMTs support the classification of Citral as a weak skin sensitiser. One GPMT classified Citral as a moderate sensitiser. None of these studies were judged to require a revision to LLNA/HRIPT based NESIL. Given all the above, the weight of evidence leads to a NESIL of 1400 μg/c","endpoint":"sensitisation","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"μg/cm2","noael_value":"1417","page":34,"route":"","species":"","study_id":"sccs_o_287_noael_006"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	sensitisation	1666	-	guinea pig	-	-	sensitisation	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=unclear:SCCS/1666/24 Final Opinion Opinion on Citral (CAS No. 5392-40-5, EC No. 226-394-6) - sensitisation endpoint _________________________________________________________________________________ 61 Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Moderate 500 – 2500 250 - < 2500 Weak >2500 - 10,000 2500 - 25,000 Extremely weak > 10,000 Non-sensitizer Negative Guinea pig tests, specifically the Guinea Pig Maximization Test (GPMT) and the Buehler test, were designed for the purpose of hazard identification. While they are not well suited for potency categorization, several schemes have been published that utilize the induction concentration and the incidence of positive responses to provide an estimate of the relativ; EFFECT=SCCS/1666/24 Final Opinion Opinion on Citral (CAS No. 5392-40-5, EC No. 226-394-6) - sensitisation endpoint _________________________________________________________________________________ 61 Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Moderate 500 – 2500 250 - < 2500 Weak >2500 - 10,000 2500 - 25,000 Extremely weak > 10,000 Non-sensitizer Negative Guinea pig tests, specifically the Guinea Pig Maximization Test (GPMT) and the Buehler test, were designed for the purpose of hazard identification. While they are not well suited for potency categorization, several schemes have been published that utilize the induction concentration and the incidence of positive responses to provide an estimate of the relativ; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"","duration":"","effect":"SCCS/1666/24 Final Opinion Opinion on Citral (CAS No. 5392-40-5, EC No. 226-394-6) - sensitisation endpoint _________________________________________________________________________________ 61 Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Moderate 500 – 2500 250 - < 2500 Weak >2500 - 10,000 2500 - 25,000 Extremely weak > 10,000 Non-sensitizer Negative Guinea pig tests, specifically the Guinea Pig Maximization Test (GPMT) and the Buehler test, were designed for the purpose of hazard identification. While they are not well suited for potency categorization, several schemes have been published that utilize the induction concentration and the incidence of positive responses to provide an estimate of the relativ","endpoint":"sensitisation","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"","noael_value":"unclear:SCCS/1666/24 Final Opinion Opinion on Citral (CAS No. 5392-40-5, EC No. 226-394-6) - sensitisation endpoint _________________________________________________________________________________ 61 Potency Category Human NOEL (HRIPT/HMT) (µg/cm2) LLNA EC3 (µg/cm2) Moderate 500 – 2500 250 - < 2500 Weak >2500 - 10,000 2500 - 25,000 Extremely weak > 10,000 Non-sensitizer Negative Guinea pig tests, specifically the Guinea Pig Maximization Test (GPMT) and the Buehler test, were designed for the purpose of hazard identification. While they are not well suited for potency categorization, several schemes have been published that utilize the induction concentration and the incidence of positive responses to provide an estimate of the relativ","page":61,"route":"","species":"guinea pig","study_id":"sccs_o_287_noael_008"}
UnifiedCodex:SCCS_SHADOW:beta.noael_studies	sensitisation	3448	μg/cm2	human	dermal	-	sensitisation	SOURCE_SUBDIR=sccs_o_287; REPORT_TITLE=Final Opinion Scientific Committee on Consumer Safety SCCS OPINION on Citral (CAS No. 5392-40-5, EC No. 226-394-6) sensitisation endpoint; OPINION_NUMBER=SCCS/1666/24; COMMITTEE=Scientific Committee on Consumer Safety (SCCS); REPORT_DATE=final version of 29 July 2024; VALUE_TEXT=3448; DOSE=There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency.; EFFECT=ion with respect to relative sensitizing potency. Under the conditions of the Human Maximization test, Citral in petrolatum induced skin sensitisation at concentrations ranging from 8% (5517 μg/cm2) to 2% (1379 μg/cm2). Only the study using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation in any of the 25 volunteers. Conclusion It was demonstrated that Citral has the potential to induce dermal sensitisation in humans. Except for the isolated study using butylene glycol as a vehicle, a NOEL was not demonstrated. There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency. However, the trend of the data suggests a threshold around 0.5% - 1.0%, which, given the greater sensitivity of this assay compared to the HRIPT, but with the use of petrolatum as a vehicle (which was common at that time) suggests results consistent with the HRIPT. SCCS comments on the Hu; CITATION_NUMBERS=[]; DETAILS_JSON={"cas_number":"5392-40-5","citation":"","dose":"There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency.","duration":"","effect":"ion with respect to relative sensitizing potency. Under the conditions of the Human Maximization test, Citral in petrolatum induced skin sensitisation at concentrations ranging from 8% (5517 μg/cm2) to 2% (1379 μg/cm2). Only the study using Citral at 5% (3448 μg/cm2) in butylene glycol failed to induce sensitisation in any of the 25 volunteers. Conclusion It was demonstrated that Citral has the potential to induce dermal sensitisation in humans. Except for the isolated study using butylene glycol as a vehicle, a NOEL was not demonstrated. There was only limited evidence of dose-response in the results, which, together with the intrinsic limitations of these assays already mentioned above, render it difficult to deduce information on potency. However, the trend of the data suggests a threshold around 0.5% - 1.0%, which, given the greater sensitivity of this assay compared to the HRIPT, but with the use of petrolatum as a vehicle (which was common at that time) suggests results consistent with the HRIPT. SCCS comments on the Hu","endpoint":"sensitisation","ingredient":"codes ............................................... 11","loael_value":"","noael_unit":"μg/cm2","noael_value":"3448","page":19,"route":"dermal","species":"human","study_id":"sccs_o_287_noael_004"}

openFDA substances 4 endpoints

Source	Endpoint Type	Value	Unit	Species	Route	Duration	Study Type	Reference
openFDA substances	FDA UNII substance identifier	T7EU0O9VPP	UNII	-	-	-	mixture	{"approval_status":null,"molecular_formula":null,"source_table":"substance_identifiers_fda","substance_class":"mixture","unii_code":"T7EU0O9VPP"}
openFDA substances	FDA UNII substance identifier	T7EU0O9VPP	UNII	-	-	-	mixture	{"approval_status":null,"molecular_formula":null,"source_table":"substance_identifiers_fda","substance_class":"mixture","unii_code":"T7EU0O9VPP"}
openFDA substances	FDA UNII substance identifier	T7EU0O9VPP	UNII	-	-	-	mixture	{"approval_status":null,"molecular_formula":null,"source_table":"substance_identifiers_fda","substance_class":"mixture","unii_code":"T7EU0O9VPP"}
openFDA substances	FDA UNII substance identifier	T7EU0O9VPP	UNII	-	-	-	mixture	{"approval_status":null,"molecular_formula":null,"source_table":"substance_identifiers_fda","substance_class":"mixture","unii_code":"T7EU0O9VPP"}