1,2-dichloropropane

Administrative data

Description of key information

Three carcinogenicity studies are available. Two 2-year oral gavage studies, conducted in rats and mice according to OECD Test Guidelines (TG) 451 were reported (NTP, 1986a). In addition, one 2-year inhalation (whole body) rat study (Umedaet al. 2010) was included. No test guidelines are reported for the inhalation study. All studies were conducted using 1,2-dichloropropane (DCP).

 

1)   In the 2-year oral rat study, no significant or treatment-related increase in tumour incidence was observed in male rats given 62 or 125 mg/kg bw/day, while female rats given 125 or 250 mg/kg bw/day showed a positive trend for mammary adenocarcinoma (incidence rates adjusted for survival were 3%, 5% and 27% at 0, 125 and 250 mg/kg, respectively). These tumours consisted of highly cellular fibroadenomas which were not metastatic, anaplastic, or highly invasive, but were significantly increased in the high dose group. High dose females showed a marked decrease in survival and a significant reduction in bodyweight, indicating that the maximum tolerated dose (MTD) was exceeded.

 

2)   In the 2-year oral mouse study (doses were 0, 125 and 250 mg/kg bw/day for both sexes) incidences of liver adenoma were increased in high dose males (45%) and at both doses in females (17 and 19%, respectively). Control incidences were 20% in males and 3% in females.

An increased incidence of thyroid tumours was also observed in females at the high dose (21% compared with 3% in control, 0% in low dose). Liver changes (hepatocytomegaly, focal necrosis) occurred in all treatment groups, which may have affected the metabolic and hormonal state of the animal. In addition, the concurrent control incidence of hepatocellular adenomas was lower than the mean historical control incidence while the highest incidences in the treated mice were below the upper bounds of the historical control incidence (mean 33%, range 14-58% in males; mean 14%, range 2-28% in females).

 

3)     In the 2-year inhalation rat study (Umeda et al., 2010; concentrations of 0, 80, 200 and 500 ppm (v/v), 50 rats/sex/concentration) there was a clear increased incidence of nasal papillomas in the highest dose groups of both sexes. Three cases of olfactory esthesioneuroepitheliomas were also seen in males exposed to 80 and 200 ppm. Concentration-dependent increased incidences in hyperplasia of the transitional epithelium and in squamous cell hyperplasia were also seen in both sexes, as well as atrophy of the olfactory epithelium, inflammation of the respiratory epithelium and squamous cell metaplasia.

(RAC opinion, 2014)

Key value for chemical safety assessment

Carcinogenicity: via oral route

Link to relevant study records

Referenceopen allclose all

Reference 1

Endpoint:

carcinogenicity: oral

Type of information:

experimental study

Adequacy of study:

key study

Study period:

2003

Reliability:

1 (reliable without restriction)

Qualifier:

no guideline followed

Principles of method if other than guideline:

standard NTP gavage study

GLP compliance:

yes

Species:

rat

Strain:

Fischer 344

Sex:

male/female

Route of administration:

oral: gavage

Vehicle:

corn oil

Duration of treatment / exposure:

103 wk

Frequency of treatment:

5 d/wk

Remarks:

Doses / Concentrations:
males 0, 62 or 125 mg/kg bwt/d
Basis:

Remarks:

Doses / Concentrations:
females 0, 125 or 250 mg/kg bwt/d
Basis:

Body weight and clinical signs

Treated animals showed a dose-related reduction in body weight. Final body weights were approx. 5% lower than control for low dose animals, and 14% and 24% lower then control in the high dose male and female groups, respectively. (Female body weight was decreased by >20% from wk 76 of the study.) No clinical signs are described.

Survival

The survival of high dose females (250 mg/kg bwt/d) was significantly (P<0.001) below that of the low dose females and controls (32%, 86% and 74% survival to the end of the study). Mortality and morbidity were especially marked at wk 94 of the study. Survival in males was comparable for all groups (78%, 84% and 82% alive at wk 103 for the control, 62 mg/kg bwt/d and 125 mg/kg bwt/d groups, respectively).

Tumor pathology

Because of reduced survival in high dose female rats, statistical procedures that adjust for intercurrent mortality (life table and incidental tumor tests) were regarded as more meaningful than the 'unadjusted' analysis.

A quantitative increased tumor incidence in one or both treatment groups relative to control, or a positive trend in the absence of any statistically significant difference between the treated and control groups, was seen for the following tissues and tumor types:

* mammary gland mammary gland hyperplasia was increased, and there was a positive trend for mammary adenocarcinoma (adjusted rates: 2,7%, 4.7%, 26.7%; significantly increased in high dose group), both in females only; the overall incidence of fibroadenomas showed a negative trend in females. Tumor incidence in the high dose group was strongly influenced by findings in 4 of 16 animals that survived to the end of the study. A historical incidence of 2% (3/150) was reported for the laboratory conducting this study, with an overall historical incidence of 1.2% (11/895).

* uterus

enometrial stromal polyps occurred with a significant positive trend, although the incidence in the individual treatment groups was not increased relative to control.

* thyroid follicluar cell carcinoma were found in two low dose females (but not in control or high dose females) at study termination; historic range 0.2-0.7%.

* stomach or forestomach a non-significant increase in squamous cell papillomas was found in two high dose females (none in control); historic range 0-0.3%.

* pancreas islet cell carcinomas occurred with a positive trend in males, however the incidence of adenomas was greatest in the control group and the combined incidence (adenoma + carcinomas) was not different between the groups.

* pituitary while the incidence of adenomas was significantly increased in low dose females, the survival-adjusted incidence was unremarkable; the incidence of pituitary carcinomas was greatest in control females; the incidence of combined (adenomas + carcinomas) was not increased significantly.

* adrenal glands pheochromocytomas showed a negative trend in males, and there was no difference in the incidence in combined pheochromocytoma + malignant pheochromocytoma).

No tumors were present in liver, a tissue showing signs of non-neoplastic changes (see above). Note: Significant increases were observed in virus antibody titers. The report notes that the relationship between these increases and occurrence of non-neoplastic- and neoplastic changes is unclear.

Conclusions:

NTP concluded that under the conditions of this study there was no evidence that PDC was a carcinogen in male rats treated by gavage at doses up to 125 mg/kd bwt/d or 250 mg/kg bwt/d, respectively, for up to 103 wk. There was equivocal evidence of an increase in mammary tumors in high dose females, but no other tissues were affected.