Bis(chloromethyl)ether (BCME) (CASRN 542-88-1)
view QuickView
0375
Bis(chloromethyl)ether (BCME); CASRN 542-88-1
Health assessment information on a chemical substance is included in IRIS only after a comprehensive review of chronic toxicity data by U.S. EPA health scientists from several Program Offices and the Office of Research and Development. The summaries presented in Sections I and II represent a consensus reached in the review process. Background information and explanations of the methods used to derive the values given in IRIS are provided in the Background Documents.
STATUS OF DATA FOR BCME
File First On-Line 09/26/1988
Category (section) |
Status |
Last Revised |
---|---|---|
Oral RfD Assessment (I.A.) | no data | |
Inhalation RfC Assessment (I.B.) | message | 07/01/1991 |
Carcinogenicity Assessment (II.) | on-line | 01/01/1991 |
_I. Chronic Health Hazard Assessments for Noncarcinogenic Effects
_I.A. Reference Dose for Chronic Oral Exposure (RfD)
Substance Name — Bis(chloromethyl)ether (BCME)
CASRN — 542-88-1
Not available at this time.
_I.B. Reference Concentration for Chronic Inhalation Exposure (RfC)
Substance Name — Bis(chloromethyl)ether (BCME)
CASRN — 542-88-1
The health effects data for bis(chloromethyl) ether were reviewed by the U.S. EPA RfD/RfC Work Group and determined to be inadequate for the derivation of an inhalation RfC. The verification status of this chemical is currently not verifiable. For additional information on the health effects of this chemical, interested parties are referred to the EPA documentation listed below.
U.S. EPA. 1980. Ambient Water Quality Criteria Document for Chloroalkyl Ethers. Prepared by the Office of Health and Environmental Assessment, Environmental Criteria and Assessment Office, Cincinnati, OH for the Office of Water Regulations and Standards, Washington, DC. EPA 440/5-80-030.
Agency Work Group Review — 03/28/1991
Screening-Level Literature Review Findings — A screening-level review conducted by an EPA contractor of the more recent toxicology literature pertinent to the RfC for Bis(chloromethyl)ether (BCME) conducted in November 2001 did not identify any critical new studies. IRIS users who know of important new studies may provide that information to the IRIS Hotline at hotline.iris@epa.gov or (202)566-1676.
EPA Contacts:
Please contact the IRIS Hotline for all questions concerning this assessment or IRIS, in general, at (202)566-1676 (phone), (202)566-1749 (FAX) or hotline.iris@epa.gov (internet address).
_II. Carcinogenicity Assessment for Lifetime Exposure
Substance Name — Bis(chloromethyl)ether (BCME)
CASRN — 542-88-1
Last Revised — 01/01/1991
Section II provides information on three aspects of the carcinogenic assessment for the substance in question; the weight-of-evidence judgment of the likelihood that the substance is a human carcinogen, and quantitative estimates of risk from oral exposure and from inhalation exposure. The quantitative risk estimates are presented in three ways. The slope factor is the result of application of a low-dose extrapolation procedure and is presented as the risk per (mg/kg)/day. The unit risk is the quantitative estimate in terms of either risk per ug/L drinking water or risk per ug/cu.m air breathed. The third form in which risk is presented is a drinking water or air concentration providing cancer risks of 1 in 10,000, 1 in 100,000 or 1 in 1,000,000. The rationale and methods used to develop the carcinogenicity information in IRIS are described in The Risk Assessment Guidelines of 1986 (EPA/600/8-87/045) and in the IRIS Background Document. IRIS summaries developed since the publication of EPA's more recent Proposed Guidelines for Carcinogen Risk Assessment also utilize those Guidelines where indicated (Federal Register 61(79):17960-18011, April 23, 1996). Users are referred to Section I of this IRIS file for information on long-term toxic effects other than carcinogenicity.
_II.A. Evidence for Human Carcinogenicity
__II.A.1. Weight-of-Evidence Characterization
Classification — A; human carcinogen
Basis — Statistically significant increases in lung tumors (oat cell carcinomas) observed in six studies of exposed workers and bioassay data from rats and mice.
__II.A.2. Human Carcinogenicity Data
Sufficient. There are six studies of workers exposed to BCME in which statistically significant increases in lung tumors were found (Figueroa et al., 1973; Sakabe, 1973; Thiess et al., 1973; Albert et al., 1975; Lemen et al., 1976; Pasternack et al., 1977). In four studies, workers were primarily exposed to CMME (technical-grade chloromethyl methyl ether) with 1-8% of BCME as a contaminant in the remaining two studies, workers were exposed to BCME alone. All six studies found statistically significant increases in the incidence of lung carcinomas, predominantly of the oat-cell type which is generally not associated with smoking. The observed numbers of lung carcinomas were much higher in workers exposed to BCME alone than in workers exposed to both BCME and CMME. The age range in the studies was from 35-54 years, with latency periods of 8-16 years. Despite a lack of information on study designs and analytical techniques, the consistent finding of a high incidence of oat-cell carcinoma of the lung in similar age groups after an appropriate latency period in all studies provides sufficient qualitative evidence of the carcinogenicity of BCME in humans. The data, however, were not considered to be adequate for use in quantitative risk estimation.
__II.A.3. Animal Carcinogenicity Data
Sufficient. Kuschner et al. (1975) conducted an inhalation study of male Sprague-Dawley rats exposed to BCME at 0.1 ppm 6 hours/day, 5 days/week for 10, 20, 40, 60, 80, or 100 days, then observed for the remainder of their lifetimes. There was a marked increase in the incidence of several types respiratory tract tumors at this low dose in the treated animals as compared with the controls. There was also a log-normal distribution of cancer induction time, with a median of 440 days; The cancer incidence shows a sigmoidal curve with time.
Several other investigators have demonstrated the ability of BCME to induce respiratory tumors by the inhalation route. Leong et al. (1971) reported a 34% increase in tumor incidence in A/Heston mice exposed 6 hours/day, 5 days/week for 6 months to CMME vapors at either 1 ppm or 2 ppm with 0.3-2.6% BCME as an impurity. Drew et al. (1975) reported a skin tumor on 1/25 Sprague-Dawley rat after one exposure to 0.7 ppm and a nose tumor on 1/50 Syrian golden hamster after three exposures to 1 ppm of BCME; both tumors occurred more than 1 year after exposure.
BCME is a potent complete skin carcinogen in mice, producing both papillomas and squamous cell carcinomas (Van Duuren et al., 1969). Pulmonary tumors in newborn ICR Swiss mice have been induced by s.c. injection of BCME (Gargus et al., 1969).
__II.A.4. Supporting Data for Carcinogenicity
BCME is a direct-acting mutagen for Salmonella typhimurium (Nelson, 1976). BCME decreases the latency period of benzo[a]pyrene-initiated tumors, but does not affect tumor yield (Van Duuren et al., 1968).
_II.B. Quantitative Estimate of Carcinogenic Risk from Oral Exposure
__II.B.1. Summary of Risk Estimates
Oral Slope Factor — 2.2E+2 per (mg/kg)/day
Drinking Water Unit Risk — 6.2E-3 per (ug/L)
Extrapolation Method — Linearized multistage procedure, extra risk
Drinking Water Concentrations at Specified Risk Levels:
Risk Level
|
Concentration
|
---|---|
E-4 (1 in 10,000)
|
1.6E-2 ug/L
|
E-5 (1 in 100,000)
|
1.6E-3 ug/L
|
E-6 (1 in 1,000,000)
|
1.6E-4 ug/L
|
__II.B.2. Dose-Response Data (Carcinogenicity, Oral Exposure)
Based on inhalation data in II.C.2.
__II.B.3. Additional Comments (Carcinogenicity, Oral Exposure)
The unit risk should not be used if the water concentration exceeds 1.6 ug/L, since above this concentration the unit risk may not be appropriate.
__II.B.4. Discussion of Confidence (Carcinogenicity, Oral Exposure)
This oral estimate is derived from inhalation data. BCME is not likely to be found in water since it rapidly hydrolizes.
_II.C. Quantitative Estimate of Carcinogenic Risk from Inhalation Exposure
__II.C.1. Summary of Risk Estimates
Inhalation Unit Risk — 6.2E-2 per (ug/cu.m)
Extrapolation Method — Linerarized multistage procedure, extra risk
Air Concentrations at Specified Risk Levels:
Risk Level
|
Concentration
|
---|---|
E-4 (1 in 10,000) | 1.6E-3 ug/cu.m |
E-5 (1 in 100,000) | 1.6E-4 ug/cu.m |
E-6 (1 in 1,000,000) | 1.6E-5 ug/cu.m |
__II.C.2. Dose-Response Data for Carcinogenicity, Inhalation Exposure
Tumor Type — respiratory tract tumors
Test animals — rat/Sprague-Dawley, male
Route — inhalation
Reference — Kuschner et al., 1975
----------Dose--------- |
||
---|---|---|
Number
of 6-hour, 0.1-ppm Exposures |
Human
Equivalent (mg/kg/day) |
Tumor
Incidence |
0
|
0
|
0/240
|
10
|
0.000270
|
1/41
|
20
|
0.000541
|
3/46
|
40
|
0.00105
|
4/18
|
60
|
0.00184
|
4/18
|
80
|
0.00347
|
15/34
|
100
|
0.00373
|
12/20
|
__II.C.3. Additional Comments (Carcinogenicity, Inhalation Exposure)
Tumor types observed were neuroepitheliomas, malignant olfactory tumors (unclassified), ganglioneuroepitheliomas, squamous cell carcinomas of the turbinates and gingiva, poorly differentiated epithelial tumors of the nose, nasal cavity adenocarcinomas, and squamous cell carcinomas and adenocarcinomas of the lung.
The human equivalent dose was calculated from the animal dose, assuming surface area equivalence. The animal dose was calculated from the air concentration (0.1 ppm or 0.479 mg/cu.m.), an assumed breathing rate (0.283 cu.m./day) for 500-g rats (assumed), and from the number of exposures in each group. Although the median life span of these animals (ranging from 483 to 497 days in the control and lowest two treated groups) was shorter than other Sprague-Dawley colonies reported in the literature (Anver et al., 1982), the response is still considered to represent a lifetime incidence. Since the animals were allowed to live until natural death occurred, a correction factor for estimating the lifetime incidence from less than lifetime studies was not applied here, whereas the Ambient Water Quality Criteria Document (U.S. EPA, 1980) made such a correction. The customary 5/7 adjustment to convert from 5 to 7 days/week exposure in such studies was similarly unnecessary since the actual number of days of exposure was provided by the authors. Also, a mistake was found in the criteria document unit risk calculations, which were a factor of 10 too high. The effect of these adjustments is to reduce the unit risks by a factor of about 45 from that reported in the Ambient Water Quality Criteria Document (U.S. EPA, 1980).
The unit risk should not be used if the air concentration exceeds 1.6E-1 ug/cu.m, since above this concentration the unit risk may not be appropriate.
__II.C.4. Discussion of Confidence (Carcinogenicity, Inhalation Exposure)
Tumor incidence was shown to be dose-dependent in rats based on a time- related exposure pattern. Human data do not corroborate the risk estimate. Control data were pooled, not run concurrently.
_II.D. EPA Documentation, Review, and Contacts (Carcinogenicity Assessment)
__II.D.1. EPA Documentation
Source Document — U.S. EPA, 1980, 1986
The 1980 Ambient Water Quality Criteria Document for Chloroalkyl Ethers has received agency and external review. The 1986 evaluation of the potential carcinogenicity of bis(chloromethyl)ether has received limited review.
__II.D.2. EPA Review (Carcinogenicity Assessment)
Agency Work Group Review — 07/23/1986, 05/04/1988
Verification Date — 05/04/1988
Screening-Level Literature Review Findings — A screening-level review conducted by an EPA contractor of the more recent toxicology literature pertinent to the cancer assessment for Bis(chloromethyl)ether (BCME) conducted in November 2001 identified one or more significant new studies. IRIS users may request the references for those studies from the IRIS Hotline at hotline.iris@epa.gov or (202)566-1676.
__II.D.3. EPA Contacts (Carcinogenicity Assessment)
Please contact the IRIS Hotline for all questions concerning this assessment or IRIS, in general, at (202)566-1676 (phone), (202)566-1749 (FAX) or hotline.iris@epa.gov (internet address).
_III.
[reserved]
_IV. [reserved]
_V. [reserved]
_VI. Bibliography
Substance Name — Bis(chloromethyl)ether (BCME)
CASRN — 542-88-1
Last Revised — 07/01/1991
_VI.A. Oral RfD References
None
_VI.B. Inhalation RfD References
U.S. EPA. 1980. Ambient Water Quality Criteria Document for Chloroalkyl Ethers. Prepared by the Office of Health and Environmental Assessment, Environmental Criteria and Assessment Office, Cincinnati, OH for the Office of Water Regulations and Standards, Washington, DC. EPA 440/5-80-030.
_VI.C. Carcinogenicity Assessment References
Albert, R.E., B.S. Pasternack, R.E. Shore, M. Lippmann, N. Nelson and B. Ferris. 1975. Mortality patterns among workers exposed to chloromethyl ethers - A preliminary report. Environ. Health Perspect. 11: 209-214.
Anver, M.R., B.J. Cohen, C.P. Lattuada and S.J. Foster. 1982. Age-associated lesions in barrier-reared male Sprague-Dawley rats: A comparison between hap: (SD) and Crl:COBS(R)CD(SD) stocks. Exp. Aging Res. 8(1):3-24.
Drew, R.T., S. Laskin, M. Kuschner and N. Nelson. 1975. Inhalation carcinogenicity of alpha halo ethers. I. The acute inhalation toxicity of chloromethyl methyl ether and bis(chloromethyl)ether. Arch. Environ. Health. 30: 61-69.
Figueroa, W.G., R. Raszkowski and W. Weiss. 1973. Lung cancer in chloromethyl methyl ether workers. New Engl. J. Med. 288: 1096-1097.
Gargus, J.L., W.H. Reese, Jr. and H.A. Rutter. 1969. Induction of lung adenomas in newborn mice by bis(chloromethyl)ether. Toxicol. Appl. Pharmacol. 15: 92-96.
Kuschner, M., S. Laskin, R.T. Drew, V. Cappiello and N. Nelson. 1975. Inhalation carcinogenicity of alpha halo ethers. III. Lifetime and limited period inhalation studies with bis(chloromethyl)ether at 0.1 ppm. Arch. Environ. Health. 30: 73-77.
Lemen, R.A., W.M. Johnson, J.K. Wagoner, V.E. Archer and G. Saccomanno. 1976. Cytologic observations and cancer incidence following exposure to BCME. Ann. NY Acad. Sci. 271: 71-80.
Leong, B.K.J., H.N. Macfarland and W.H. Reese, Jr. 1971. Induction of lung adenomas by chronic inhalation of bis(chloromethyl)ether. Arch. Environ. Health. 22: 663-666.
Nelson, N. 1976. The chloroethers - occupational carcinogens: A summary of laboratory and epidemiology studies. Ann. NY Acad. Sci. 271: 81-90.
Pasternack, B.S., R.E. Shore and R.E. Albert. 1977. Occupational exposure to chloromethyl ethers. A retrospective cohort mortality study (1948-1972). J. Occup. Med. 19: 741-746.
Sakabe, H. 1973. Lung cancer due to exposure to bis(chloromethyl)ether. Ind. Health. 11: 145-148.
Thiess, V.A.M., W. Hey and H. Zeller. 1973. Zur Toxikologie von Dichlordimethylather - Verdacht auf kanzerogene Wirkung auch beim Menschen. Zbl. Arbeitsmed. 23: 97-102.
U.S. EPA. 1980. Ambient Water Quality Criteria Document for Chloroalkyl Ethers. Prepared by the Office of Health and Environmental Assessment, Environmental Criteria and Assessment Office, Cincinnati, OH for the Office of Water Regulations and Standards, Washington, DC. EPA 440/5-80-030. NTIS PB 81-117418.
U.S. EPA. 1986. Evaluation of the Potential Carcinogenicity of Bis(Chloromethyl)Ether. Draft RQ Document. Prepared by the Office of Health and Environmental Assessment, Carcinogen Assessment Group, Washington, DC. July 8.
Van Duuren, B., B. Goldschmidt, C. Katz, et al. 1968. Alpha-Haloesters: A new type of alkylating carcinogen. Am. Med. Assoc. Arch. Environ. Health. 16: 472-476.
Van Duuren, B.L., A. Sivak, B.M. Goldschmidt, C. Katz and S. Melchionne. 1969. Carcinogenicity of halo-ethers. J. Natl. Cancer Inst. 43: 481-486.
_VII. Revision History
Substance Name — Bis(chloromethyl)ether (BCME)
CASRN — 542-88-1
Date |
Section |
Description |
---|---|---|
09/26/1988 | II. | Carcinogen summary on-line |
04/01/1989 | V. | Supplementary data on-line |
01/01/1990 | II.A.4. | Correct Van Duuren et al. citation year to 1969 |
01/01/1990 | II.C.3. | Correct Anver, 1982 to Anver et al., 1982 |
01/01/1990 | VI. | Bibliography on-line |
02/01/1990 | VI.C. | Kuschner et al. 1975 citation clarified |
01/01/1991 | II. | Text edited |
01/01/1991 | II.C.1. | Inhalation slope factor removed (global change) |
01/01/1991 | VI.C. | van Duuren et al., 1968 reference added |
05/01/1991 | I.B. | Inhalation RfC now under review |
07/01/1991 | I.B. | Inhalation RfC message on-line |
07/01/1991 | VI.B. | Inhalation RfC references added |
01/01/1992 | IV. | Regulatory Action section on-line |
04/01/1997 | III., IV., V. | Drinking Water Health Advisories, EPA Regulatory Actions, and Supplementary Data were removed from IRIS on or before April 1997. IRIS users were directed to the appropriate EPA Program Offices for this information. |
12/03/2002 | I.B., II.D.2. | Screening-Level Literature Review Findings message has been added. |
_VIII. Synonyms
Substance Name — Bis(chloromethyl)ether (BCME)
CASRN — 542-88-1
Last Revised — 09/26/1988
- 542-88-1
- BCME
- Bis(chloromethyl)ether
- BIS-CME
- CHLORO(CHLOROMETHOXY)METHANE
- CHLOROMETHYL ETHER
- DICHLORDIMETHYLAETHER
- 1,1'-DICHLORODIMETHYL ETHER
- sym-DICHLORO-DIMETHYL ETHER
- sym-DICHLOROMETHYL ETHER
- DIMETHYL-1,1'-DICHLOROETHER
- ETHER, BIS(CHLOROMETHYL)
- METHANE, OXYBIS(CHLORO-
- OXYBIS(CHLOROMETHANE)
- RCRA WASTE NUMBER P016
- UN 2249