Statement B Attachment 1 Level of Concern Card Scenarios

Statement	B,	Attachment	1	
	

Sample	Level	of	Concern	Card	Scenarios	

	
1. What	is	your	level	of	concern	for	neonatal	intensive	care	unit	(NICU)	infants?	
Hazard:	Presumed	
Human	evidence:	Inadequate	evidence	
No	studies	available.	

Animal	evidence:	High	evidence	
Exposure	of	pregnant	rats	to	dosed	feed	during	gestation	and	postnatal	development	resulted	in	exposure	
levels	of	14	to	23	mg/kg	bw/day	to	mothers	and	was	associated	with	adverse	effects	on	development	of	the	
male	reproductive	tract	including	small	or	absent	reproductive	organs,	skeletal	and	cardiovascular	
malformations,	neural	tube	defects,	developmental	delays,	and	intrauterine	death	of	offspring.	The	frequency	
of	the	adverse	effects	ranged	from	5-20%	and	there	was	evidence	for	a	monotonic	dose-response	gradient.	

Mechanistic/other	evidence	
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	in	women	of	childbearing	age	is	estimated	to	be	0.6	mg/kg	bw/day	based	on	back-calculation	from	
urinary	metabolites	measured	in	NHANES.	

	
Margin	of	Exposure	(MOE)	of	23	to	38	based	on	comparing	administered	dose	in	animal	study	(14	to	23	mg/kg	
bw/day)	to	estimated	daily	intake	in	women	(0.6	mg/kg	bw/day).	

Other	information		
High	productive	volume	chemical.	

	
	

	

	

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2. What	is	your	Level	of	Concern	for	women	of	childbearing	age?	
Hazard:	Presumed	
Human	evidence:	Inadequate	evidence	
No	studies	available.	

Animal	evidence:	High	evidence	
Exposure	of	pregnant	rats	to	dosed	feed	during	gestation	and	postnatal	development	resulted	in	exposure	
levels	of	14	to	23	mg/kg	bw/day	to	mothers	and	was	associated	with	adverse	effects	on	development	of	the	
male	reproductive	tract	including	small	or	absent	reproductive	organs,	skeletal	and	cardiovascular	
malformations,	neural	tube	defects,	developmental	delays,	and	intrauterine	death	of	offspring.	The	frequency	
of	the	adverse	effects	ranged	from	5-20%	and	there	was	evidence	for	a	monotonic	dose-response	gradient.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	in	women	of	childbearing	age	is	estimated	to	be	0.6	mg/kg	bw/day	based	on	back-calculation	from	
urinary	metabolites	measured	in	NHANES.	

	
Margin	of	Exposure	(MOE)	of	23	to	38	based	on	comparing	administered	dose	in	animal	study	(14	to	23	mg/kg	
bw/day)	to	estimated	daily	intake	in	women	(0.6	mg/kg	bw/day).	

Other	information		
High	productive	volume	chemical.	

	
	
	
3. What	is	your	Level	of	Concern	for	men?	
Hazard:	Presumed	
Human	evidence:	Inadequate	evidence	
No	studies	available.	

Animal	evidence:	High	evidence	
Exposure	of	pregnant	rats	to	dosed	feed	during	gestation	and	postnatal	development	resulted	in	exposure	
levels	of	14	to	23	mg/kg	bw/day	to	mothers	and	was	associated	with	adverse	effects	on	development	of	the	
male	reproductive	tract	including	small	or	absent	reproductive	organs,	skeletal	and	cardiovascular	
malformations,	neural	tube	defects,	developmental	delays,	and	intrauterine	death	of	offspring.	The	frequency	
of	the	adverse	effects	ranged	from	5-20%	and	there	was	evidence	for	a	monotonic	dose-response	gradient.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	in	men	estimated	to	be	0.6	mg/kg	bw/day	based	on	back-calculation	from	urinary	metabolites	
measured	in	NHANES.	
	
Margin	of	Exposure	(MOE)	of	23	to	38	based	on	comparing	administered	dose	in	animal	study	(14	to	23	mg/kg	
bw/day)	to	estimated	daily	intake	in	men	(0.6	mg/kg	bw/day).	

Other	information		
High	productive	volume	chemical.	

	
	

	

	

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4. What	is	your	Level	of	Concern	for	exposed	workers?	
Hazard:	Suspected	
Human	evidence:	Inadequate	evidence	
No	studies	available.	

Animal	evidence:	Moderate	evidence	
Oral	exposure	of	pregnant	rats	to	~5-8	mg/kg	bw/day	resulted	in	lower	body	weights	in	offspring	of	~25%.	Dam	
weights	were	not	affected.	The	level	of	evidence	was	downgraded	from	high	to	moderate	because	there	was	
unexplained	inconsistency	in	body	weight	findings	across	four	studies,	i.e.,	two	did	not	detect	a	difference.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Inhalation	exposure	in	exposed	female	workers	of	childbearing	age	is	estimated	as	high	as	0.043	mg/kg	bw/day	
based	on	data	from	a	small	number	of	work	sites	that	was	collected	15	years	ago.	

	
Margin	of	Exposure	(MOE)	of	116	to	186	based	on	administered	dose	level	resulting	in	lower	body	weights	in	
offspring	in	animal	developmental	toxicity	study	(5-8	mg/kg	bw/day)	compared	to	estimated	occupational	
exposure	levels	in	women	(0.043	mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	
5. What	is	your	Level	of	Concern	for	the	general	population?	
Hazard:	Not	classifiable	
Human	evidence:	Inadequate	evidence	
No	studies	available.	

Animal	evidence:	Low	evidence	
Oral	exposure	to	pregnant	dams	at	≥	500	mg/kg	bw/day	(mice)	or	at	≥	1000	mg/kg	bw/day	(rats)	resulted	in	
fetal	deaths	(10%),	skeletal	and	external	malformations	(15%),	and	reduced	body	weights	among	offspring	(up	
to	10%).	Maternal	toxicity	observed	at	the	same	dose	levels.	The	level	of	evidence	was	downgraded	from	high	
to	low	based	on	(1)	concern	for	risk	of	bias	(internal	validity),	and	(2)	unexplained	inconsistency	because	two	
other	studies	in	mice	of	similar	design	reported	effects	at	similar	dose	levels.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Oral	exposure	in	adults	estimated	to	range	from	0.125	to	1.25	mg/kg	bw/day	based	on	typical	therapeutic	
dosing	regimens.	
	
Margin	of	Exposure	(MOE)	range	of	400	to	4,000	based	on	administered	dose	level	resulting	in	developmental	
toxicity	in	animals	(≥	500	mg/kg	bw/day)	compared	to	doses	used	clinically	(0.125	to	1.25).	

Other	information		
Industrial	chemical.	

	
	

	

	

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6. What	is	your	Level	of	Concern	for	women	of	childbearing	age?	
Hazard:	Presumed	
Human	evidence:	Inadequate	evidence	
No	studies	available	that	address	neurological	outcomes.	

Animal	evidence:	Moderate	evidence	
Oral	exposure	≥	500	mg/kg	bw/day	in	rats	and	mice	treated	during	gestation	and/or	during	early	post-natal	life	
in	several	studies	resulted	in	impaired	performance	in	learning	and	memory	tests.	The	level	of	evidence	was	
downgraded	from	high	to	moderate	based	on	concern	for	risk	of	bias	(internal	validity)	in	most	of	the	studies.	

Mechanistic/other	evidence		
Raises	the	hazard	identification	classification	from	"suspected"	to	"presumed."	Mechanistic	data	from	in	vivo	
studies	shows	the	chemical	can	decrease	thyroid	hormone	levels	and	in	vitro	studies	show	impaired	neuronal	
development	at	relatively	low	concentrations	(<10	µM).	

Exposure	
Exposure	description	
Oral	exposure	in	adults	estimated	to	range	from	0.125	to	1.25	mg/kg	bw/day	based	on	typical	therapeutic	
dosing	regimens.	
	
Margin	of	Exposure	(MOE)	range	of	400	to	4,000	based	on	administered	dose	level	resulting	in	developmental	
neurotoxicity	in	animals	(≥	500	mg/kg	bw/day)	compared	to	doses	used	clinically	(0.125	to	1.25	mg/kg	bw/day).	

Other	information		
Pharmaceutical.	

	
	
7. What	is	your	Level	of	Concern	for	females	of	childbearing	age?	
Hazard:	Presumed	
Human	evidence:	Inadequate	evidence		
No	studies	available.	

Animal	evidence:	High	evidence	
Dietary	treatment	of	250	to	1000	mg/kg	bw/day	to	female	mice	resulted	in	effects	on	reproduction	and	
carcinogenesis.	Body	weights	were	slightly	lower	in	the	highest	treated	mice;	decreased	relative	weight	of	the	
thymus	and	liver	and	lower	uterine	size	were	found	at	the	two	highest	doses	(750	and	1000	mg/kg	bw/day).	
Effects	on	reproduction	included	longer	estrous	cycles	at	500	mg/kg	bw/day;	at	750	mg/kg	bw/day,	longer	
estrous	cycle	and	lower	fertility;	and	at	1000	mg/kg	bw/day,	longer	estrous	cycle,	lower	fertility,	and	smaller	
litter	sizes.	In	a	separate	group	of	animals,	similar	effects	on	body	weight	and	organ	weights	were	found	along	
with	dose-related	increases	(500	to	1000	mg/kg	bw/day)	in	ovarian	and	mammary	tumors.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Dietary	exposure	of	general	population	is	estimated	at	<0.002	mg/kg	bw/day.	
	
Margin	of	Exposure	(MOE)	range	of	250,000	is	based	on	estimated	dietary	intake	in	humans	(0.002	mg/kg	
bw/day)	and	the	lowest	dose	levels	in	animal	studies	(500	mg/kg	bw/day)	that	caused	reproductive	toxicity	and	
had	carcinogenic	activity.	

Other	information		
No	other	information.	

	
	
	

	
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8. What	is	your	Level	of	Concern	for	exposed	workers?	
Hazard:	Not	classifiable	
Human	evidence:	Low	evidence		
A	case-control	analysis	in	an	occupational	setting	showed	a	significant	association	with	diabetes.	The	level	of	
evidence	was	downgraded	from	high	to	low	based	on	(1)	lack	of	controlled	exposure,	and	(2)	the	study	design	
did	not	allow	a	determination	of	whether	exposure	preceded	the	health	outcome.	

Animal	evidence:	Low	evidence	
Oral	exposure	to	rat	dams	at	≥200	mg/kg	bw/day	resulted	in	pancreatic	toxicity	and	impaired	glucose	
tolerance.	The	level	of	evidence	was	downgraded	from	high	to	low	based	on	(1)	concern	for	risk	of	bias	
(internal	validity),	and	(2)	concern	for	publication	bias,	i.e.,	all	three	studies	came	from	the	same	research	
group	and	used	a	small	number	of	animals.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	

Inhalation	exposure	of	workers	ranges	from	1.4	to	90	mg/kg	bw/day.	
	
Margin	of	Exposure	(MOE)	range	of	~2	to	145	is	based	on	estimated	human	occupational	exposure	
administered	dose	level	resulting	in	effects	in	animals	(≥200	mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	
9. What	is	your	Level	of	Concern	for	exposed	workers?	
Hazard:	Presumed	
Human	evidence:	Low	evidence		
An	occupational	case-control	study	reported	an	increase	in	liver	transaminases	[aspartate	aminotransferase	
(AST),	alanine	aminotransferase	(ALT)]	used	as	biomarkers	for	liver	injury	and	increases	in	serum	cholesterol	
and	triglycerides	in	exposed	workers.	Considered	low	quality	evidence	because	of	(1)	lack	of	controlled	
exposure,	and	(2)	concern	for	risk	of	bias	(internal	validity)	related	to	quality	of	the	exposure	assessment.	

Animal	evidence:	High	evidence	
Dietary	treatment	to	male	and	female	rats	of	≥200	mg/kg/day	caused	increased	blood	pressure	and	treatment	
at	higher	doses	of	≥500	mg/kg	bw/day	caused	histopathological	findings	in	the	heart	in	males.	In	a	rabbit	
teratology	study,	drinking	water	exposure	to	≥1000	mg/kg/day	resulted	in	skeletal	abnormalities,	cleft	palates,	
exencephaly	(the	brain	is	located	outside	of	the	skull),	and	skeletal	malformations.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Human	exposure	levels	not	quantified,	based	on	job	occupation	and	assumed	relative	level	of	exposure.	
	
Margin	of	Exposure	(MOE)	is	unknown.	

Other	information		
Occupational	exposure	and	chemical	can	be	found	in	consumer	products.	

	
	

	

	

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10. What	is	your	Level	of	Concern	for	the	general	population?		
Hazard:	Presumed	
Human	evidence:	Low	evidence		
An	occupational	case-control	study	reported	an	increase	in	liver	transaminases	[aspartate	aminotransferase	
(AST),	alanine	aminotransferase	(ALT)]	used	as	biomarkers	for	liver	injury	and	increases	in	serum	cholesterol	
and	triglycerides	in	exposed	workers.	Considered	low	quality	evidence	because	of	(1)	lack	of	controlled	
exposure,	and	(2)	concern	for	risk	of	bias	(internal	validity)	related	to	quality	of	the	exposure	assessment.	

Animal	evidence:	High	evidence	
Dietary	treatment	to	male	and	female	rats	of	≥200	mg/kg/day	caused	increased	blood	pressure	and	treatment	
at	higher	doses	of	≥500	mg/kg/day	caused	histopathological	findings	in	the	heart	in	males.	In	a	rabbit	
teratology	study,	drinking	water	exposure	to	≥1000	mg/kg/day	resulted	in	skeletal	abnormalities,	cleft	palates,	
exencephaly	(the	brain	is	located	outside	of	the	skull),	and	skeletal	malformations.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Human	exposure	levels	not	quantified,	based	on	job	occupation	and	assumed	relative	level	of	exposure.	
	
Margin	of	Exposure	(MOE)	is	unknown.	

Other	information		
Occupational	exposure	and	chemical	can	be	found	in	consumer	products.	

	
	
11. What	is	your	Level	of	Concern	for	exposed	female	workers?	
Hazard:	Suspected	
Human	evidence:	Inadequate	evidence		
A	case	series	report	of	3	women	occupationally	exposed	to	60-260	ppm	(time	weighted	average)	reported	
altered	menstrual	cycles	in	2	women.	The	level	of	evidence	was	downgraded	from	high	to	very	low	based	on	(1)	
lack	of	controlled	exposure,	(2)	the	study	design	did	not	allow	a	determination	of	whether	exposure	preceded	
the	health	outcome,	and	(3)	lack	of	a	comparison	group.	

Animal	evidence:	Moderate	evidence	
Inhalation	exposure	of	rats	to	≥750	ppm	decreased	prostate	weight,	sperm	motility,	and	percent	normal	sperm	
in	males.	The	level	of	evidence	was	downgraded	from	high	to	moderate	because	there	was	concern	for	risk	of	
bias	(internal	validity).	

Exposure	
Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	description	
Inhalation	exposure	to	workers	ranges	from	60-260	ppm	based	on	air	measurements	in	workplace.	
	
Margin	of	Exposure	(MOE)	of	~3	to	13	is	based	on	comparing	inhalation	exposures	that	resulted	in	effects	on	
the	male	reproductive	system	in	rats	(≥750	ppm)	to	the	range	of	exposures	reported	in	occupational	settings	
(60-260	ppm).	

Other	information		
No	other	information.	

	
	

	

	

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12. What	is	your	Level	of	Concern	for	exposed	male	workers?	
Hazard:	Suspected	
Human	evidence:	Inadequate	evidence		
A	case	series	report	of	3	women	occupationally	exposed	to	60-260	ppm	(time	weighted	average)	reported	
altered	menstrual	cycles	in	2	women.	The	level	of	evidence	was	downgraded	from	high	to	very	low	based	on	(1)	
lack	of	controlled	exposure,	(2)	the	study	design	did	not	allow	a	determination	of	whether	exposure	preceded	
the	health	outcome,	and	(3)	lack	of	a	comparison	group.	

Animal	evidence:	Moderate	evidence	
Inhalation	exposure	of	rats	to	≥750	ppm	decreased	prostate	weight,	sperm	motility,	and	percent	normal	sperm	
in	males.	The	level	of	evidence	was	downgraded	from	high	to	moderate	because	there	was	concern	for	risk	of	
bias	(internal	validity).	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Inhalation	exposure	to	workers	ranges	from	60-260	ppm	based	on	air	measurements	in	workplace.	
	
Margin	of	Exposure	(MOE)	of	~3	to	13	is	based	on	comparing	inhalation	exposures	that	resulted	in	effects	on	
male	reproductive	system	in	rats	(≥750	ppm)	to	the	range	of	exposures	reported	in	occupational	settings	(60260	ppm).	

Other	information		
No	other	information.	

	
	
13. What	is	your	Level	of	Concern	for	exposed	female	workers?	
Hazard:	Not	classifiable	
Human	evidence:	Inadequate	evidence		
A	case	series	report	of	3	women	occupationally	exposed	to	60-260	ppm	(time	weighted	average)	reported	
altered	menstrual	cycles	in	2	women.	The	level	of	evidence	was	downgraded	from	high	to	very	low	based	on	(1)	
lack	of	controlled	exposure,	(2)	the	study	design	did	not	allow	a	determination	of	whether	exposure	preceded	
the	health	outcome,	and	(3)	lack	of	comparison	group.	

Animal	evidence:	Low	evidence	
Inhalation	exposure	of	rats	to	≥250	ppm	for	10	weeks	decreased	litter	size,	increased	ovarian	follicular	cysts,	
and	increased	estrous	cycle	length	in	females.	The	level	of	evidence	was	downgraded	from	high	to	low	based	
on	(1)	concern	for	risk	of	bias	(internal	validity),	and	(2)	unexplained	inconsistency	with	two	other	studies	in	
rats	of	similar	design	that	reported	effects	at	similar	dose	levels.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Inhalation	exposure	to	workers	ranges	from	60-260	ppm	based	on	air	measurements	in	workplace.	
	
Margin	of	Exposure	(MOE)	of	less	than	1	to	~4	is	based	on	comparing	inhalation	exposures	that	resulted	in	
effects	on	female	reproductive	system	in	rats	(≥250	ppm)	to	the	range	of	exposures	reported	in	occupation	
settings	(60-260	ppm).	

Other	information		
No	other	information.	

	
	

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14. What	is	your	Level	of	Concern	for	women	of	childbearing	age	outside	of	the	occupational	setting?	
Hazard:	Known	
Human	evidence:	Moderate	evidence		
Two	case-control	studies	in	female	workers	showed	associations	between	exposure	and	birth	defects	in	male	
offspring	(hypospadias).	The	level	of	evidence	was	downgraded	from	high	to	moderate	because	the	studies	did	
not	have	controlled	exposure	(i.e.,	they	were	observational	in	design	rather	than	randomized	trial).	

Animal	evidence:	Moderate	evidence	
Oral	gavage	administration	of	female	rats	to	>500	mg/kg	bw/day	during	gestation	resulted	in	reduced	litter	size	
and	body	weight	of	offspring,	skeletal	malformations,	and	abnormalities	of	the	reproductive	organs	in	male	and	
female	offspring.	Male	offspring	had	reductions	in	testicular	testosterone	levels.	The	level	of	evidence	was	
downgraded	from	high	to	moderate	because	there	was	concern	for	risk	of	bias	(internal	validity).	

Mechanistic/other	evidence		
Raises	the	hazard	identification	classification	from	"presumed"	to	"known."	The	compound	is	accepted	as	
having	anti-androgenic	activity,	which	would	be	expected	to	affect	male	reproductive	tract	development.	

Exposure	
Exposure	description	
Exposure	to	the	general	population	is	0.002-0.010	mg/kg	bw/day	based	on	urinary	biomonitoring	data.	At	the	
high	end,	based	on	worst-case	assumption	models,	exposures	up	to	~0.1	mg/kg	bw/day	are	possible	with	
regular	use	of	certain	consumer	products.	
	
Margin	of	Exposure	(MOE)	of	5000	is	based	on	the	lowest	exposure	level	resulting	in	developmental	toxicity	
(500	mg/kg	bw/day)	and	the	highest	estimated	exposure	level	in	non-workers	(0.1	mg/kg	bw/day).	

Other	information		
Steps	were	taken	in	occupational	settings	to	reduce	exposure	(worker	protection	clothing	and	finding	
alternatives).	

	
15. What	is	your	Level	of	Concern	for	women	of	childbearing	age?	
Hazard:	Presumed	
Human	evidence:	Moderate	evidence		
A	meta-analysis	of	nine	observational	human	studies	estimated	that	a	1	ng/mL	increase	in	serum	or	plasma	
levels	was	associated	with	a	-18.9	g	(95%	CI:	-29.8,	-7.9)	difference	in	birth	weight.	The	level	of	evidence	was	
downgraded	from	high	to	moderate	because	the	studies	did	not	have	controlled	exposure	(i.e.,	they	were	
observational	in	design	rather	than	randomized	trial).	

Animal	evidence:	Moderate	evidence	
	A	meta-analysis	of	eight	gavage	studies	in	mice	resulted	in	the	conclusion	that	exposure	of	pregnant	mice	to	
increasing	concentrations	was	associated	with	a	decrease	in	mean	pup	birth	weight	of	-0.023g	(95%	CI:	-0.029,	0.016)	per	1-unit	increase	in	dose	(mg/kg	bw/day).	The	level	of	evidence	was	downgraded	from	high	to	
moderate	because	there	was	concern	for	risk	of	bias	(internal	validity).	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
The	nine	human	studies	included	in	the	meta-analysis	were	general	population	studies.	
	
No	Margin	of	Exposure	(MOE)	based	on	human	studies	because	an	association	is	being	reported	at	current	
blood	levels	in	the	general	population.	

Other	information		

No	other	information.	

	
	

8	

Statement	B,	Attachment	1	
	

16. What	is	your	Level	of	Concern	for	exposed	female	workers?	
Hazard:	Presumed	
Human	evidence:	Inadequate	evidence		
No	studies	available.	

Animal	evidence:	High	evidence	
Inhalation	exposure	of	male	and	female	rats,	6	hours/day,	7	days/week,	was	carried	out	for	at	least	70	days	
prior	to	mating.	Exposure	levels	ranged	from	100	ppm	to	750	ppm.	No	adverse	effects	were	observed	at	100	
ppm.	Statistically	significant	effects	included	lower	prostate	weights	at	250	ppm;	longer	estrous	cycles,	lower	
fertility,	smaller	litter	sizes,	lower	sperm	motility,	and	lower	prostate	weights	at	500	ppm;	and	at	750	ppm,	
longer	estrous	cycles,	lower	sperm	motility,	lower	prostate	weights,	lower	ovary	weights,	fewer	corpora	lutea,	
and	no	conceptions.	In	a	second,	smaller	study	(8	or	9	males/group)	of	male	reproductive	effects,	rats	were	
exposed	to	200,	400,	or	800	ppm,	8	hours/day	for	12	weeks.	Seminal	vesicle	weights	were	lower	at	200	ppm.	At	
400	and	800	ppm,	seminal	vesicle	weights,	sperm	counts,	and	motile	sperm	were	all	significantly	lower.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	levels	in	worker	breathing	zones	in	one	occupational	setting	are	reported	to	be	0.05	to	0.65	ppm.	
	
Margin	of	Exposure	(MOE)	of	~300	based	on	lowest	exposure	level	that	resulted	in	reproductive	effects	in	male	
rodents	(200	ppm)	compared	to	the	high	end	of	the	exposure	range	reported	in	an	occupational	setting	(0.65	
ppm).	

Other	information		
No	other	information.	

	
	
17. What	is	your	Level	of	Concern	for	exposed	workers?	
Hazard:	Not	classifiable	
Human	evidence:	Inadequate	evidence		
No	studies	available.	

Animal	evidence:	Inadequate	evidence	
No	studies	available.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification;	high	throughput	screening	data	show	activity	in	several	
nuclear	receptor	activation	assays	at	concentrations	from	1	to	10	µM.	

Exposure	
Exposure	description	
Exposure	levels	in	worker	breathing	zones	in	one	occupational	setting	are	reported	to	be	0.05	to	0.65	ppm.	
	
Margin	of	Exposure	(MOE)	is	unknown.	

Other	information		
Occupational	exposure	is	episodic,	i.e.,	peak	and	average	levels	differ	across	a	100-fold	range.	

	
	

	

	

9	

Statement	B,	Attachment	1	
	

	
18. What	is	your	Level	of	Concern	for	pregnant	women	living	at	a	Superfund	site?	
Hazard:	Presumed	
Human	evidence:	Moderate	evidence		
Several	prospective	studies	at	Superfund	sites	report	significant	associations	with	reduced	IQ	in	children.	The	
level	of	evidence	was	downgraded	from	high	to	moderate	because	the	studies	did	not	have	controlled	
exposure	(i.e.,	they	were	observational	in	design	rather	than	a	randomized	trial).	

Animal	evidence:	Low	evidence	
Developmental	neurotoxicity	was	reported	in	a	collection	of	rat	and	mouse	studies	at	oral	doses	ranging	from	
20	to	80	mg/kg	bw/day	(either	to	the	dam	or	directly	to	offspring	after	weaning).	The	studies	reported	effects	
on	different	aspects	of	neurotoxicity,	including	learning	and	memory	and	reflex	development.	The	level	of	
evidence	was	downgraded	from	high	to	low	based	on	concern	for	(1)	risk	of	bias	(internal	validity),	and	(2)	
publication	bias.	

Mechanistic/other	evidence		
Raises	the	hazard	identification	classification	from	"suspected"	to	"presumed."	The	chemical	has	been	shown	
to	reduce	thyroid	hormone	levels	in	rodents	and	inhibit	neuronal	growth	in	culture	systems	at	concentrations	
less	than	10	µM.	

Exposure	
Exposure	description	
Exposure	levels	from	all	sources	of	exposure	at	Superfund	sites	estimated	at	15	to	35	mg/kg	bw/day.	

	
Margin	of	Exposure	(MOE)	of	~1	to	5	based	on	lowest	daily	oral	dose	that	resulted	in	developmental	effects	in	
rodents	(20	to	80	mg/kg	bw/day)	compared	to	the	daily	oral	exposure	in	humans	(15	to	35	mg/kg	bw/day).			

Other	information		
No	other	information.	

	
	
19. What	is	your	Level	of	Concern	for	female	workers?	
Hazard:	Presumed	
Human	evidence:	Moderate	evidence		
Eight	studies	reported	relative	significant	risk	estimates	for	histologically	confirmed	breast	cancer	in	female	
workers	exposed	to	the	chemical.	Two	were	prospective	cohort	studies,	one	was	a	nationwide	census-based	
cohort	study,	three	were	nested	case-control	studies,	and	two	were	retrospective	case-control	studies.	The	
level	of	evidence	was	downgraded	from	high	to	moderate	because	the	studies	did	not	have	controlled	
exposure	(i.e.,	they	were	observational	in	design	rather	than	a	randomized	trial).	

Animal	evidence:	Inadequate	evidence	
No	studies	available.	

Mechanistic/other	evidence		
Raises	the	hazard	identification	classification	from	"suspected"	to	"presumed."	The	chemical	decreases	
secretion	of	melatonin;	greater	secretion	of	melatonin	is	associated	with	a	lower	risk	of	breast	cancer.	

Exposure	
Exposure	description	
Exposure	is	assumed	to	be	mostly	occupational,	but	has	not	been	quantified.		

	
No	Margin	of	Exposure	(MOE)	for	workers	because	an	association	is	being	reported	in	occupational	settings.	

Other	information		
No	other	information.	

	
	

	

	

10	

Statement	B,	Attachment	1	
	

20. What	is	your	Level	of	Concern	for	the	general	population?	
Hazard:	Suspected	
Human	evidence:	Moderate	evidence		
Five	studies	reported	relative	significant	risk	estimates	for	cardiovascular	effects	in	men	exposed	to	the	
chemical.	Two	were	prospective	cohort	studies,	two	were	nested	case–control	studies,	and	one	was	a	
retrospective	case–control	studies.	The	level	of	evidence	was	downgraded	from	high	to	moderate	because	the	
studies	did	not	have	controlled	exposure	(i.e.,	they	were	observational	in	design	rather	than	a	randomized	
trial).	

Animal	evidence:	Inadequate	evidence	
No	studies	available.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	of	the	general	population	is	estimated	to	be	less	than	0.003	mg/kg	bw/day;	exposure	in	workers	is	
estimated	at	3	to	30	mg/kg/day.		

	
Margin	of	Exposure	(MOE)	of	approximately	1,000	to	10,000	based	on	levels	in	occupational	settings	compared	
to	general	population.	

Other	information		
No	other	information.	

	
21. What	is	your	Level	of	Concern	for	men	who	take	this	drug?	
Hazard:	Suspected	
Human	evidence:	Inadequate	evidence		
There	is	one	case	report	of	azoospermia	(absence	of	motile	sperm	in	semen)	in	a	man	being	treated	with	this	
drug.	The	level	of	evidence	was	initially	considered	low	because	there	was	no	comparison	group	or	analysis	of	
sperm	count	in	the	man	before	or	after	treatment	was	stopped,	and	further	downgraded	to	very	low	because	
of	low	sample	size	(n=1).	

Animal	evidence:	Moderate	evidence	
Reproductive	toxicity	has	been	evaluated	in	two	rat	studies.	In	one	study,	mature	males	were	exposed	to	75	
mg/kg	bw/day	in	drinking	water	for	70	days	(a	single	dose	level	study).	At	the	end	of	treatment,	weight	of	the	
testes	was	55%	lower	than	in	control	males	and	numerous	histological	abnormalities	were	observed	in	the	
seminiferous	tubules.	In	a	second	rat	study,	mature	males	were	exposed	to	50	mg/kg	bw/day	in	drinking	water	
for	3	months.	At	the	end	of	exposure,	testis	and	caput	epididymis	weights	and	serum	luteinizing	hormone	(LH)	
and	follicle	stimulating	hormone	(FSH)	levels	were	significantly	lower	than	in	the	controls.	Data	on	adverse	
effects	on	male	fertility	in	laboratory	animals	were	not	available.	The	level	of	evidence	was	downgraded	from	
high	to	low	based	on	concern	for	(1)		indirectness	(i.e.,	not	having	measurement	of	fertility).	

Mechanistic/other	evidence		
Raises	the	hazard	identification	categorization	from	"suspected"	to	"presumed."	Known	to	deplete	
deoxyribonucleotide	pools	thereby	inhibiting	DNA	synthesis.	This	provides	a	feasible	mechanism	for	lowered	
sperm	counts	and	increases	confidence	in	the	hazard	identification	conclusion.	

Exposure	
Exposure	description	
People	who	take	this	drug	receive	from	20	to	40	mg/kg	bw/day.	It	is	taken	orally.	

	
Margin	of	Exposure	(MOE)	is	approximately	1.3	to	2	based	on	comparison	of	peak	plasma	concentrations	in	
rats	treated	with	50	mg/kg	bw/day	and	humans	taking	25	to	40	mg/kg	bw/day	orally.	

Other	information		
No	other	information.	

	

11	

Statement	B,	Attachment	1	
	

	
22. What	is	your	Level	of	Concern	for	pregnant	women	in	the	general	population?	
Hazard:	Suspected	
Human	evidence:	Inadequate	evidence	
No	studies	available.	

Animal	evidence:	Moderate	evidence	
There	are	four	developmental	toxicity	studies	in	rats,	all	using	Sprague-Dawley	rats	treated	via	drinking	water	
from	pre-mating	through	weaning.	Each	study	had	three	treatment	groups	and	tested	a	similar	range	of	doses	
(0,	20	to	120	mg/kg	bw/day).	Neurotoxicity	was	observed	in	all	treatment	groups	in	two	of	the	studies;	no	
effects	were	reported	in	the	other	two	studies.	The	level	of	evidence	was	downgraded	from	high	to	low	based	
on	concern	for	(1)	inconsistency	of	results	that	could	not	be	explained.	

Mechanistic/other	evidence	
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	of	the	general	population	is	estimated	to	range	from	0.0009	to	0.0035	mg/kg	bw/day.	

	
Margin	of	Exposure	(MOE)	of	~5,700	to	34,000	based	on	estimated	human	exposure	in	the	general	population	
(0.0009	to	0.0035	mg/kg	bw/day)	and	levels	inducing	developmental	neurotoxicity	in	rodents	(at	20	to	120	
mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	
23. What	is	your	Level	of	Concern	for	exposed	male	workers?	
Hazard:	Known	
Human	evidence:	High	evidence	
The	chemical	was	previously	used	as	a	pharmeceutical	that	was	prescribed	to	pregant	women	to	prevent	
miscarrage.	Shortly	after	its	introduction	for	this	use,	hundreds	of	cases	of	a	rare	congenital	deformity	were	
reported	in	babies	whose	mothers	took	the	drug.	The	deformity	was	similar	to	one	identified	in	animal	studies	
conducted	after	the	human	reports	began	to	appear.	Although	these	human	studies	were	not	controlled	trials,	
the	level	of	evidence	was	considered	high	because	of	the	rarity	of	the	deformity	in	babies	whose	mothers	did	
not	take	the	drug	and	the	magnitude	of	the	association	in	women	who	did.	

Animal	evidence:	High	evidence	
Oral	gavage	of	pregnant	rats	with	200	mg/kg	bw/day	on	gestation	days	7	to	20	or	300	mg/kg	bw/day	on	
gestation	days	6	to	15	resulted	in	a	higher	rate	of	a	rare	limb	malformation,	lower	body	weights,	and	a	lower	
number	of	live	pups.	Similar	effects	were	reported	for	pregnant	rats	following	dietary	treatment	with	100	
mg/kg	bw/day	on	gestations	days	9	to	12	and	in	pregnant	mice	treated	with	200	mg/kg	bw/day	by	oral	gavage	
on	gestation	days	6	to	17.	In	both	species,	the	most	commonly	reported	malformations	were	limb	deformaties,	
cleft	palate,	vertebral	abnormalities,	and	deformities	of	the	toes.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Occupational	exposures	range	from	0.01	to	0.1	mg/kg	bw/day.	

	
Margin	of	Exposure	(MOE)	of	2,000	to	20,000	based	on	estimated	occupational	exposure	levels	(0.01	to	0.1	
mg/kg	bw/day)	and	dose	levels	in	animal	studies	that	caused	developmental	toxicity	(≥200	mg/kg/day).	

Other	information		
No	other	information.	

	

12	

Statement	B,	Attachment	1	
	

	
24. What	is	your	Level	of	Concern	for	general	population?	
Hazard:	Not	classifiable	
Human	evidence:	Inadequate	evidence	
No	studies	available.	

Animal	evidence:	Inadequate	evidence	
A	single	study	reported	no	effects	in	mice	dosed	with	50,	75,	or	150	mg/kg	bw/day.		The	level	of	evidence	was	
downgraded	from	high	to	low	because	the	study	had	numerous	internal	validity	issues	(i.e.,	no	randomization	
to	groups,	no	blinding	at	outcome	assessment,	and	no	reporting	of	purity	or	source	of	compound).	In	
addition,the		study	was	statistically	underpowered.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
No	data	available	on	human	exposure	levels.	
	
Margin	of	Exposure	(MOE)	is	unknown.	

Other	information		

No	other	information.	

	
	
25. What	is	your	Level	of	Concern	for	infants	and	children	in	the	general	population?	
Hazard:	Presumed	
Human	evidence:	Moderate	evidence	
Several	prospective,	cohort	studies	in	children	have	shown	an	increased	risk	for	respiratory	disease	and	otitis	
media,	and	reduced	efficacy	of	vaccination.	The	level	of	evidence	was	downgraded	from	high	to	moderate	
because	the	studies	did	not	have	controlled	exposure	(i.e.,	they	were	observational	in	design	rather	than	
randomized	control	trials).	

Animal	evidence:	High	evidence	
Numerous	studies	in	rodents	and	primates	indicate	that	several	chemicals	in	this	class	of	compounds	suppress	
immune	function.	The	effect	of	suppressed	immune	function	occurred	following	adult	and/or	developmental	
exposures	at	dose	levels	ranging	from	10	to	100	mg/kg	bw/day.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
There	are	infectious	disease	(vaccine)	studies	in	an	isolated	population	with	relatively	high	exposure	via	the	
diet	(~1	mg/kw	bw/day).	Other	findings	are	reported	in	the	general	population	with	estimated	exposure	of	0.01	
mg/kg	bw/day.	

	

Margin	of	Exposure	(MOE)	of	10	to	1,000	based	on	a	range	of	exposure	levels	(0.01	to	1	mg/kg	bw/day)	and	the	
lowest	dose	levels	in	animal	studies	that	caused	suppressed	immune	function	(10	mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	

	

	

13	

Statement	B,	Attachment	1	
	

26. What	is	your	Level	of	Concern	for	adults	in	the	general	population?	
Hazard:	Suspected	
Human	evidence:	Low	evidence	
A	study	of	community	members	exposed	via	the	drinking	water	following	a	chemical	spill	showed	some	effects	
on	inflammatory	mediators	(e.g.,	cytokines,	histamine,	bradykinin,	etc.).	There	is	additional	evidence	for	effects	
in	highly	exposed	occupational	populations.	The	level	of	evidence	was	downgraded	from	high	to	low	because	
the	studies	did	not	have	controlled	exposure	(i.e.,	they	were	observational	in	design	rather	than	randomized	
control	trials)	and	for	indirectness	(use	of	an	inflammation	mediator	as	a	surrogate	for	an	immunological	
effect).	

Animal	evidence:	High	evidence	

Numerous	studies	in	rodents	indicate	that	several	chemicals	in	this	class	of	compounds	suppress	immune	
function.	The	effect	of	suppressed	immune	function	occurred	following	adult	and/or	developmental	exposures	
at	dose	levels	ranging	from	10	to	100	mg/kg	bw/day.	

Mechanistic/other	evidence		
Lowers	the	hazard		identification	classification	from	"presumed"	to	"suspected."	Mechanistic	evidence	suggest	
the	pathways	associated	with	immunotoxicity	in	rodents	are	not	applicable	to	humans.	In	addition,	the	
chemicals	in	this	class	have	a	much	longer	half-life	in	rodents	compared	to	humans.	

Exposure	
Exposure	description	
Exposure	can	occur	from	a	variety	of	consumer	products	including	cookware,	stain	resistant	fabrics,	textiles,	
and	carpet.	Some	members	of	this	chemical	class	were	voluntarily	phased	out	and	are	being	replaced	by	others	
with	similar	structures.	
	
Margin	of	Exposure	(MOE)	of	100	to	1,000	based	on	a	range	of	exposure	levels	(0.01	to	0.1	mg/kg	bw/day)	and	
the	lowest	dose	levels	in	animal	studies	that	caused	suppressed	immune	function	(10	mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	
27. What	is	your	Level	of	Concern	for	workers	at	the	current	regulatory	limit	of	1	ppm?	
Hazard:	Presumed	
Human	evidence:	Inadequate	evidence	
No	studies	available.	

Animal	evidence:	High	evidence	
Inhalation	exposure	to	rats	(125,	250,	or	500	ppm)	caused	dose-related	increases	in	tumors	of	the	large	
intestine	(a	very	rare	tumor)	in	females,	and	skin	tumors	in	males	at	≤	125	ppm.	Inhalation	exposure	to	mice	
(62.5,	125,	or	250	ppm)	was	associated	with	dose-related	increases	of	skin	tumors	in	both	sexes	(≤	62.5	ppm).	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	levels	vary	by	industry.	The	time-weighted	average	(TWA)	daily	exposure	varies	among	industries	
with	reported	air	concentrations,	ranging	from	25	to	175	ppm.	
	
Margin	of	Exposure	(MOE)	of	<1	to	2.5	based	on	a	range	of	exposure	levels	(25	to	175	ppm)	and	the	lowest	
dose	levels	in	animal	studies	that	caused	a	significant	increase	in	tumors	(62.5	ppm).	

Other	information		
High	productive	volume	chemical.	

	
	
	

	
14	

Statement	B,	Attachment	1	
	

28. What	is	your	Level	of	Concern	for	workers?	
Hazard:	Known	
Human	evidence:	Moderate	evidence		
Several	occupational	cohort	studies	found	a	positive	association	with	lymphohematopoietic	cancers,	especially	
those	with	lymphoid	cell	origin.	The	strongest	evidence	comes	primarily	from	a	large	cohort	study	showing	an	
association	of	these	types	of	cancer	with	cumulative	exposure	in	men.	Cumulative	exposure	is	also	associated	
with	breast	cancer	in	women.	The	level	of	evidence	was	considered	moderate	based	on	downgrades	for	studies	
not	having	a	controlled	exposure	(i.e.,	they	were	observational	in	design	rather	than	randomized	control	trials)	
and	concern	for	risk	of	bias	with	respect	to	confounding;	however,	there	was	also	an	upgrade	based	on	
evidence	of	a	dose-gradient.	

Animal	evidence:	High	evidence	
Inhalation	exposure	caused	dose-related	increases	in	brain	tumors	(≥100	ppm),	mononuclear-cell	leukemia	
(≥50	ppm),	peritoneal	mesotheliomas	(≥100	ppm)	or	subcutaneous	fibroma	(≥100	ppm)	and	tumors	of	the	lung		
(≥100	ppm),	and	tumors	of	the	harderian	gland	(≥50	ppm),	uterus,	and	mammary	gland	(≥50	ppm)	in	mice.	
Local	tumors	were	also	observed	in	rats	exposed	by	gavage	(forestomach	tumors	at	750	mg/kg	bw/day)	and	
mice	exposed	by	subcutaneous	injection	(sarcoma	at	100	mg/kg	bw/day).			

Mechanistic/other	evidence		
Raises	the	hazard	identification	classification	from	"presumed"	to	"known."	The	chemical	has	been	shown	to	
cause	chromosomal	damage	in	mammalian	cells	and	is	mutagenic	in	bacterial	cells.	

Exposure	
Exposure	description	
Average	exposure	is	1	to	2	ppm	in	most	jobs	and	up	to	5	ppm	for	"highest	exposed"	since	the	late	1970s;	
probably	higher	in	earlier	years.	
	
Margin	of	Exposure	(MOE)	of	~10	to	50	based	on	a	range	of	exposure	levels	(1	to	5	ppm)	and	the	lowest	dose	
levels	in	animal	studies	that	caused	a	significant	increase	in	tumors	(50	ppm).	

Other	information		
High	productive	volume	chemical.	

	
	
29. What	is	your	Level	of	Concern	for	general	population?	
Hazard:	Presumed	
Human	evidence:	Inadequate	evidence		
No	studies	available.	

Animal	evidence:	Moderate	evidence	
Adrenal	hypertrophy	was	observed	in	Sprague-Dawley	rats	exposed	to	0.92	or	1.8	mg/kg	bw/day	in	drinking	
water	for	30	days;	corticosterone	levels	were	reduced	and	stimulated	ACTH	response	was	significantly	greater.	
Decreased	adrenal	gland	weight	was	reported	in	female	Wistar	rats	exposed	to	8	mg/kg	bw/day	via	drinking	
water	for	90	days	and	in	male	Sprague-Dawley	rats	exposed	to	8	mg/kg	bw/day	via	drinking	water	for	24	
weeks.	The	level	of	evidence	was	downgraded	from	high	to	moderate	based	on	concern	for	risk	of	bias	
(internal	validity).	

Mechanistic/other	evidence		
Raises	the	hazard	ID	catagorization	identification	from	"suspected"	to	"presumed."	Raises	hazard	identification;	
mechanistic	data	shows	the	chemical	inhibits	enzymes	required	for	corticosteroid	synthesis	

Exposure	
Exposure	description	

No	data	available	on	human	exposure	levels.	
	
Margin	of	Exposure	(MOE)	is	unknown.	

Other	information		
Chemical	is	listed	as	an	ingredient	in	cosmetics	and	certain	household	products.	

	

15	

Statement	B,	Attachment	1	
	

	
30. What	is	your	Level	of	Concern	for	male	workers?	
Hazard:	Known	
Human	evidence:	High	evidence		
A	very	large	number	of	epidemiological	studies,	including	prospective	cohort	studies,	have	documented	
associations	between	exposure	and	lower	IQ	in	children;	there	is	evidence	of	a	dose	gradient.	These	studies	
have	been	summarized	and	evaluated	in	numerous	government	risk	assessments.	Public	health	actions	are	
recommended	when	children	have	blood	levels	above	5	µg/dL.	

Animal	evidence:	Inadequate	evidence	
No	studies	available.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Blood	levels	in	workers	range	from	10	to	25	µg/dL.	
	
Blood	levels	in	workers	exceed	blood	levels	in	pregnant	women	or	children	associated	with	IQ	deficits.	

Other	information		

No	other	information.	

	
31. What	is	your	Level	of	Concern	for	male	workers?	
Hazard:	Known	
Human	evidence:	Low	evidence		
Men	occupationally	exposed	had	some	changes	in	testicular	endocrine	function,	as	measured	by	serum	levels	
of	reduced	testosterone,	luteinizing	hormone	(LH),	and	follicle	stimulating	hormone	(FSH).	The	level	of	
evidence	was	considered	low	based	on	downgrades	because	the	study	did	not	have	controlled	exposure	(i.e.,	
observational	in	design	rather	than	randomized	control	trials)	and	for	indirectness	(use	of	hormone	alterations	
as	an	indicator	of	reproductive	toxicity).	

Animal	evidence:	High	evidence	
Reproductive	toxicity	has	been	evaluated	in	two	rat	studies	and	two	mouse	studies.	In	one	study,	adult	male	
Sprague-Dawley	rats	treated	via	inhalation	at	70	ppm	for	70	days	(a	single	dose	level	study)	had	lower	tesicular	
weights	and	numerous	histological	abnormalities	in	the	seminiferous	tubules.	In	a	second	study,	adult	male	
Fisher	rats	treated	with	50	ppm	via	inhalation	for	3	months	had	lower	testis	and	caput	epididymis	weights,	
lower	serum	luteinizing	hormone	(FH)	and	follicle	stimulating	hormone	(FSH)	levels,	and	reduced	fertility	
compared	to	controls.	Adult	male	mice	treated	by	inhalation	for	10	consecutive	days	with	625,	1250,	2500,	or	
5000	ppm	had	lower	sperm	counts	at	all	dose	levels,	and	testes	weights	were	lower	at	≥2500	ppm.	In	the	
second	mouse	study,	males	were	treated	by	inhalation	for	5	consecutive	days	with	0,	25,	50,	100,	200,	400,	or	
500	ppm.	Testis	weights	and	sperm	counts	were	significantly	lower	than	controls	at	doses	≥50	ppm.	

Mechanistic/other	evidence		
Raises	the	hazard	ID	catagorization	identification	from	"presumed"	to	"known."	The	chemical	is	an	antiandrogen.	

Exposure	
Exposure	description	
Occupational	exposure	is	typically	0.1	to	0.5	ppm	(time	weight	average).	
	
Margin	of	Exposure	(MOE)	of	~100	to	500	based	on	a	range	of	exposure	levels	(0.1	to	0.5	ppm)	and	the	lowest	
dose	levels	in	animal	studies	that	caused	reproductive	toxicity	(50	ppm).	

Other	information		

No	other	information.	

	
	

16	

Statement	B,	Attachment	1	
	

32. What	is	your	Level	of	Concern	for	women	of	reproductive	age?	
Hazard:	Suspected	
Human	evidence:	Moderate	evidence		
Significant	associations	were	observed	for	longer	time	to	pregnancy	in	2	prospective	studies.	A	cross-sectional	
study	identified	an	association	with	self-report	of	irregular	menstrual	cycles.	The	level	of	evidence	for	the	
prospective	studies	was	considered	moderate	based	on	a	downgrade	for	studies	not	having	a	controlled	
exposure	(i.e.,	they	were	observational	in	design	rather	than	randomized	control	trials).	

Animal	evidence:	Low	evidence	
Oral	exposure	of	rats	to	≥0.100	mg/kg	bw/day	for	10	weeks	decreased	litter	size,	increased	ovarian	follicular	
cysts,	and	increased	estrous	cycle	length	in	females.	The	level	of	evidence	was	downgraded	from	high	to	low	
based	on	(1)	concern	for	risk	of	bias	(internal	validity),	and	(2)	unexplained	inconsistency	with	two	other	studies	
in	rats	of	similar	design	that	reported	effects	at	similar	dose	levels.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	of	the	general	population	is	estimated	at	0.001	mg/kg	bw/day.	
	
Margin	of	Exposure	(MOE)	of	~100	based	on	estimated	daily	inake	of	0.001	mg/kg	bw/day	and	the	lowest	dose	
levels	in	animal	studies	that	caused	reproductive	toxicity	(0.1	mg/kg	bw/day).	

Other	information		
High	productive	volume	chemical.	

	
33. What	is	your	Level	of	Concern	for	workers?	
Hazard:	Known	
Human	evidence:	High	evidence		
The	kidney	is	considered	one	of	the	main	target	organ	of	toxicity	following	extended	inhalation	exposure.	The	
sensitivity	of	the	kidney	was	initialyl	recongized	in	a	1950	investigation	of	workers	exposed	to	fumes	in	a	
factory	setting.	These	workers	suffered	from	a	high	incidence	of	abnormal	renal	function,	indicated	by	
proteinuria	and	a	decrease	in	glomerular	filtration	rate.	Over	20	other	studies	in	workers	have	reported	various	
effects	on	the	kidneys.	Associations	with	decreased	glomerular	filtration	rate	have	been	reported	at	blood	
levels	≥8.4	μg/L.	

Animal	evidence:	Moderate	evidence	
In	rats,	moderate	to	severe	degenerative	changes	in	the	renal	tubular	epithelium	were	observed	following	
inhalation	treatement	with	3	ppm	for	3	hours	a	day,	5	days	a	week	for	12–42	weeks.	Rabbits	treated	via	
inhalation	with	0.86	ppm	for	7	hours	a	day,	5	days	a	week	for	12	weeks	exhibited	moderate	pathological	kidney	
changes	that	were	reversible	with	cessation	of	exposure.	Larger	doses	(6	ppm)	administered	to	rabbits	for	7	
hours	a	day,	5	days	a	week,	for	up	to	11	weeks,	produced	effects	that	ranged	from	mild,	unspecified,	
pathological	changes	to	marked	cellular	degeneration	and	widespread	necrosis.	The	level	of	evidence	was	
downgraded	from	high	to	moderate	based	on	concern	for	risk	of	bias	(internal	validity).	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Occupational	exposure	is	typically	0.05	to	0.01	ppm	(time	weight	average).	
	
Margin	of	Exposure	(MOE)	of	~17	to	86	based	on	a	range	of	exposure	levels	(0.05	to	0.01	ppm)	and	the	lowest	
dose	levels	in	animal	studies	that	caused	kidney	effects	(0.86	ppm).	

Other	information		
No	other	information.	

	
	

17	

Statement	B,	Attachment	1	
	

34. What	is	your	Level	of	Concern	for	adult	males?	
Hazard:	Not	classifiable	
Human	evidence:	Inadequate	evidence		
No	studies	available.	

Animal	evidence:	Low	evidence	
Developmental	neurotoxicity	was	reported	in	a	collection	of	rat	and	mouse	studies	at	oral	doses	ranging	from	
20	to	80	mg/kg	bw/day	(either	to	the	dam	or	directly	to	offspring	after	weaning).	The	studies	reported	effects	
on	different	aspects	of	neurotoxicity,	including	learning	and	memory	and	reflex	development.	The	level	of	
evidence	was	downgraded	from	high	to	low	based	on	concern	for	(1)	risk	of	bias	(internal	validity)	and	(2)	
publication	bias.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	of	the	general	population	is	estimated	at	0.2	mg/kg	bw/day.	
	
Margin	of	Exposure	(MOE)	of	~100	based	on	estimated	daily	inake	of	0.2	mg/kg	bw/day	and	the	lowest	dose	
levels	in	animal	studies	that	caused	reproductive	toxicity	(20	mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	
35. What	is	your	Level	of	Concern	for	general	population?	
Hazard:	Suspected	
Human	evidence:	Inadequate	evidence		
No	studies	available.	

Animal	evidence:	High	evidence	
Many	studies	in	laboratory	animals	have	reported	effects	on	the	thyroid.	Reported	findings	have	included	
reduced	thyroid	iodide	uptake,	increased	levels	of	iodide	in	serum,	decreased	serum	thyroxine	(T4)	and	
triiodothyronine	(T3),	increased	serum	thyroid	stimulating	hormone	(TSH),	increased	thyroid	size	and	weight,	
and	hypertrophy	and	hyperplasia	of	thyroid	cells,	eventually	leading	to	fibrosis	and	tumor	development.	Doses	
reported	to	produce	these	effects	ranged	from	7	to	3,811	mg/kg	bw/day	after	exposure	durations	ranging	from	
1	day	to	2	years.	

Mechanistic/other	evidence		
Lowers	the	hazard	ID	catagorization	identification	from	"presumed"	to	"suspected."	Thyroid	effects	are	
attributed	to	accumulation	of	a	metabolite	that	is	not	produced	in	humans.	

Exposure	
Exposure	description	
Exposure	of	the	general	population	is	estimated	at	0.07	mg/kg	bw/day.	
	
Margin	of	Exposure	(MOE)	of	~100	based	on	estimated	daily	inake	of	0.07	mg/kg	bw/day	and	the	lowest	dose	
levels	in	animal	studies	that	caused	thyroid	effects	(7	mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	

	

	

18	

Statement	B,	Attachment	1	
	

	
36. What	is	your	Level	of	Concern	for	people	taking	this	drug?	
Hazard:	Not	classifiable	
Human	evidence:	Low	evidence		
In	four	case	reports,	the	effect	of	treatment	with	this	drug	on	muscle	coordination	was	reported.	In	one	case,	
there	was	no	effect	on	muscle	coordination.	In	three	cases,	impaired	muscle	coordination	was	reported.	In	all	
three	of	these	cases,	muscle	function	returned	to	normal	3	to	12	months	following	discontinuation	of	
treatment.	The	level	of	evidence	was	considered	low	based	on	a	downgrade	for	studies	being	case	reports	(no	
reference	group,	small	sample	size).	

Animal	evidence:	Low	evidence	
Oral	treatment	of	rats	to	≥1	mg/kg	bw/day	for	10	weeks	caused	ataxia.	The	level	of	evidence	was	downgraded	
from	high	to	low	based	on	(1)	concern	for	risk	of	bias	(internal	validity)	and	(2)	unexplained	inconsistency	with	
two	other	studies	in	rats	of	similar	design	that	reported	effects	at	similar	dose	levels.	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
The	typical	therapeutic	dose	is	5	mg/kg	bw/day.	
	
Margin	of	Exposure	(MOE)	of	<1	based	on	therapeutic	dose	(5	mg/kg	bw/day)	and	the	lowest	dose	level	in	the	
animal	study	where	ataxia	was	reported	(1	mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	
37. What	is	your	Level	of	Concern	for	infants	and	children	with	relatively	high	exposure	via	the	diet?	
Hazard:	Suspected	
Human	evidence:	Inadequate	evidence		
No	studies	available.	

Animal	evidence:	Moderate	evidence	
Numerous	studies	in	rodents	and	primates	indicate	that	several	chemicals	in	this	class	of	compounds	suppress	
immune	function.	This	effect	of	suppressed	immune	function	occurred	following	adult	and/or	developmental	
exposures	at	dose	levels	ranging	from	10	to	100	mg/kg	bw/day.	The	level	of	evidence	was	downgraded	from	
high	to	moderate	based	on	concern	for	risk	of	bias	(internal	validity).	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Intake	in	population	with	relatively	high	exposure	via	the	diet	is	estimated	at	~1	mg/kg	bw/day.	Other	findings	
reported	in	general	population	with	estimated	exposure	of	0.01	mg/kg	bw/day.	
	
Margin	of	Exposure	(MOE)	of	10	to	1,000	based	on	a	range	of	exposure	levels	(0.01	to	1	mg/kg	bw/day)	and	the	
lowest	dose	levels	in	animal	studies	that	caused	suppressed	immune	function	(10	mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	

	

	

19	

Statement	B,	Attachment	1	
	

	
38. What	is	your	Level	of	Concern	for	workers?	
Hazard:	Suspected	
Human	evidence:	Low	evidence		
Men	occupationally	exposed	had	elevations	in	the	liver	enzymes	aspartate	aminotransferase	(AST)	and	alanine	
aminotransferase	(ALT).	The	level	of	evidence	was	considered	low	based	on	downgrades	for	the	study	not	
having	a	controlled	exposure	(i.e.,	observational	in	design	rather	than	randomized	control	trials)	and	for	
indirectness	(more	detailed	analysis	of	liver	function	was	not	conducted	or	reported).	

Animal	evidence:	Low	evidence	
Oral	exposure	to	mice	at	≥1	mg/kg	bw/day	resulted	in	altered	liver	gene	expression	(but	no	impacts	on	weight	
or	liver	enzyme	levels)	in	one	of	three	studies	of	very	similar	design.	The	level	of	evidence	was	downgraded	
from	high	to	low	based	on	(1)	indirectness	(unclear	biological	significance	of	the	changes	in	gene	expression)	
and	(2)	unexplained	inconsistency	with	two	other	studies	in	rats	of	similar	design	that	reported	effects	at	
similar	dose	levels.	

Mechanistic/other	evidence		
Raises	the	hazard	ID	catagorization	identification	from	"not	classifiable"	to	"suspected."	The	chemical	is	
positive	in	several	in	vitro	models	used	to	assess	liver	toxicity.	

Exposure	
Exposure	description	
Occupational	exposures	are	typically	0.5	to	0.1	mg/kg	bw/day.	
	
Margin	of	Exposure	(MOE)	of	~5	to	10	based	on	a	range	of	exposure	levels	(0.1	to	0.2	mg/kg	bw/day)	and	the	
lowest	dose	levels	in	animal	studies	that	caused	gene	expression	changes	in	the	liver	(1	mg/kg	bw/day).	

Other	information		
No	other	information.	

	
	
39. What	is	your	Level	of	Concern	for	infants	and	children	in	the	general	population?	
Hazard:	Suspected	
Human	evidence:	Low	evidence		
Several	epidemiological	studies	in	children	have	shown	increased	risk	for	respiratory	disease	and	otitis	media,	
and	reduced	efficacy	of	vaccination.	The	level	of	evidence	was	downgraded	from	high	to	low	because	the	
studies	(1)	did	not	have	controlled	exposure	(i.e.,	they	were	observational	in	design	rather	than	randomized	
control	trials)	and	(2)	they	were	cross-sectional	in	design	and	did	not	allow	a	determination	of	whether	
exposure	preceeded	outcome	assessment.	

Animal	evidence:	Moderate	evidence	
Numerous	studies	in	rodents	and	primates	indicate	that	several	chemicals	in	this	class	of	compounds	suppress	
immune	function.	The	effect	of	suppressed	immune	function	occurred	following	adult	and/or	developmental	
exposures	at	dose	levels	ranging	from	10	to	100	mg/kg	bw/day.	The	level	of	evidence	was	downgraded	from	
high	to	moderate	based	on	concern	for	risk	of	bias	(internal	validity).	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	of	the	general	population	is	estimated	at	0.01	mg/kg	bw/day.	

	
Margin	of	Exposure	(MOE)	of	1,000	based	on	general	population		exposure	levels	(0.01	mg/kg	bw/day)	and	
lowest	dose	levels	in	animal	studies	that	caused	suppressed	immune	function	(10	mg/kg	bw/day).	

Other	information		

No	other	information.	

	

20	

Statement	B,	Attachment	1	
	

	
40. What	is	your	Level	of	Concern	for	general	population?	
Hazard:	Presumed	
Human	evidence:	Moderate	evidence		
A	relative	risk	(95%	CI)	of	1.23	(1.15	to	1.31)	was	reported	based	on	a	meta-analysis	of	10	occupational	studies	
(and	1,082	participants)that		evaluated	myocardial	infarction.	The	level	of	evidence	was	considered	moderate	
based	on	a	downgrade	for	the	study	not	having	a	controlled	exposure	(i.e.,	observational	in	design	rather	than	
randomized	control	trials).	

Animal	evidence:	Moderate	evidence	
Dose-related	cardiomyopathy	was	observed	in	a	6-month	study	in	Sprague-Dawley	rats	where	males	and	
females	were	treated	via	the	diet	with	~175,	350,	700,	and	1000	mg/kg	bw/day.	Statistically	significant	findings	
of	cardiomyopathy	were	observed	at	≥350	mg/kg	bw/day.	The	level	of	evidence	was	downgraded	from	high	to	
moderate	based	on	concern	for	risk	of	bias	(internal	validity).	

Mechanistic/other	evidence		
No	impact	on	hazard	identification	classification.	

Exposure	
Exposure	description	
Exposure	of	the	general	population	is	estimated	to	be	~0.001	mg/kg	bw/day.		

	
Margin	of	Exposure	(MOE)	of	350,000	based	on	general	population	exposure	levels	(0.001	mg/kg	bw/day)	and	
lowest	dose	levels	in	animal	studies	that	caused	cardiomyopathy	(≥350	mg/kg	bw/day).	

Other	information		
No	other	information.	

	

	

21