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Current Intelligence Bulletin 28: Joint NIOSH/OSHA Vinyl Halides - Carcinogenicity Vinyl Bromide, Vinyl Chloride, and Vinylidene Chloride

September 21, 1978
DHHS (NIOSH) Publication Number 79-102

Vinyl Halides - Carcinogenicity Vinyl Bromide, Vinyl Chloride, and Vinylidene Chloride

The National Institute for Occupational Safety and Health (NIOSH) and the Occupational Safety and Health Administration (OSHA) jointly recommend that vinyl bromide and vinylidene chloride be considered in the workplace as potential carcinogens to humans and controlled with the same degree of prudence as vinyl chloride, another vinyl halide currently regulated as a carcinogen by OSHA. This recommendation is based on the results of recent studies indicating that exposure to vinyl bromide and to vinylidene chloride causes angiosarcoma of the liver and other cancers in laboratory animals. Safe levels of exposure to carcinogens have not been demonstrated, but lowered exposure to carcinogens may in general decrease the probability of cancer development.

Vinyl chloride is known to cause angiosarcoma of the liver and cancers of other sites in laboratory animals and in humans. At this time, adequate carcinogenicity studies of vinyl bromide and vinylidene chloride have been conducted only in laboratory animals. In view of the present state of knowledge in carcinogenesis, substances that cause cancer in laboratory animals are considered a potential cancer risk to humans.

Vinyl chloride is the only vinyl halide for which an OSHA exposure standard currently exists. In light of the recent laboratory animal studies demonstrating carcinogenicity of vinyl bromide and vinylidene chloride, NIOSH and OSHA have jointly prepared this Current Intelligence Bulletin. Its purpose is to advise the occupational health community of the pertinent data and implications for exposed workers. NIOSH and OSHA request that producers, distributors professional associations, and unions transmit the information in this Bulletin to their customers, employees, associates, and members.

Laboratory Studies

Carcinogenicity

Laboratory studies have demonstrated that exposure by inhalation to vinyl chloride,1-2 vinyl bromide,3 and vinylidene chloride1,4 all caused angiosarcoma of the liver and other cancers in animals. Angiosarcoma of the liver was induced in rats exposed to 25 ppm vinyl chloride, in rats exposed to 50 ppm vinyl bromide, and in mice exposed to 55 ppm vinylidene chloride.

At lower levels, exposure to vinyl chloride (1 ppm) has induced mammary carcinomas,5 exposure to vinyl bromide (10 ppm) has induced lymph node angiosarcoma,3 and exposure to vinylidene chloride (25 ppm) has induced adenocarcinomas of the kidney.4 Table 1 presents a summary of tumors in animals exposed to these vinyl halides.

Table 1. Some Tumors Reported in Vinyl Halide Animal Studies.1,3,4

Chemical Species Site Tumor
vinyl bromide rat liver angiosarcoma
zymbal gland squamous cell carcinoma
lung metastatic angiosarcoma, bronchioalveolar carcinoma, bronchioalveolar adenoma
breast adenocarcinoma
mesenteric lymph node angiosarcoma
lymphatic lymphosarcoma
vinyl chloride rat mammary gland carcinoma
skin squamous cell carcinoma
liver angiosarcoma
lung adenocarcinoma, angiosarcoma
zymbal gland carcinoma
kidney nephroblastoma
mouse liver angiosarcoma
mammary gland anaplastic and squamous metaplasia
lung bronchioaveolar adenoma
liver hepatic cell carcinoma
kidney renal adenoma
skin keratoacanthoma
rabbit skin acanthoma
lung adenocarcinoma
hamster liver angiosarcoma
skin trichoepithelioma, basalioma
lymphatic lymphoma
vinylidene chloride mouse liver angiosarcoma
lung bronchioalveolar adenoma
kidney adenocarcinoma
rat mesenteric lymph node angiosarcoma
breast mammary tumor
zymbal gland carcinoma

Mutagenicity

Several investigators have reported that vinyl chloride is mutagenic in Salmonella typhimurium and pombe6-11 and in Escherichia coli.12-14 Vinyl chloride also has been shown to be mutagenic in the yeast mutation assay,11 in the Drosophila recessive lethal test,15-16 and in the host-mediated assay.11 Studies also have shown vinyl chloride to be mutagenic in Tradescantia.17 Three reports bearing on the mutagenicity of vinyl bromide have been noted to date. Bartsch et al.,18 and Simmons19 have independently reported that vinyl bromide induced mutations in the bacterium, Salmonella typhimurium. In addition, Sparrow17 has demonstrated a significant increase in mutants in Tradescantia exposed to vinyl bromide vapors. Vinylidene chloride has been shown to induce mutations in Salmonella typhimurium,10, 20-22 in Escherichia coli,12 and in Tradescantia.17

Other Adverse Effects

Other adverse health effects in animals attributed to exposure to vinyl halides include central nervous system (CNS) effects, cardiovascular effects, respiratory effects, skin effects, skeletal effects, and liver or spleen abnormalities.1

Human Studies

Carcinogenicity

Studies of workers exposed to vinyl chloride have demonstrated an excessive risk of death from cancer of the lung, brain, lymphatic system, and angiosarcoma of the liver.1, 23 Cancers of the same sites were previously induced in animals following exposure to vinyl chloride.2

Liver angiosarcoma in humans is a very rare malignant tumor of the blood vessels. Though no clinical signs or symptoms, or laboratory examinations have been found to be specific for the early diagnosis of this cancer, affected individuals may complain of fatigue, abdominal pain, weight loss, anorexia, nausea, vomiting, melena, indigestion, jaundice, hematemesis, or diarrhea. Other manifestations may include liver enlargement and liver function abnormalities. In adults, untreated angiosarcoma of the liver usually is fatal within 8 months. Even with treatment, death usually occurs within 16 months.

To date there have been no reported cases of cancer in humans associated with exposure to vinyl bromide or vinylidene chloride. However, vinyl bromide has been in commercial production in the U.S. only since 1971. Due to the long latent period characteristic of occupationally-induced cancers, typically 15-40 years, no unusual risk of cancer among exposed workers would be expected to be be detected at this time. Vinylidene chloride has been in commercial production and use since the early 1940's. The only study24 reported to date showed no excessive cancer risk among workers occupationally exposed to vinylidene chloride, but methodologic limitations of this study do not permit an adequate evaluation of the carcinogenic risk of vinylidene chloride to humans.

Mutagenicity and Reproductive Effects

Cytogenetic studies have demonstrated a significant increase in the frequency of chromosomal aberrations in the lymphocytes of workers exposed to vinyl chloride.25-31 Further evidence for the mutagenicity of vinyl chloride has been provided by investigations showing an increase in fetal wastage among wives of male workers following occupational exposure to vinyl chloride.32-33 No studies addressing mutagenic or reproductive hazards among vinyl bromide or vinylidene chloride exposed populations have been reported.

Other Adverse Effects

Numerous other adverse health effects have been observed in humans exposed to vinyl chloride, as detailed in Table 2. Reports of effects on workers exposed to vinylidene chloride in combination with other vinyl compounds include liver function abnormalities, headache, vision problems, dizziness, fatigue, weakness, and neurological sensory disturbances. No similar reports for vinyl bromide exposure were found.1

Table 2. Other Adverse Effects of Vinyl Chloride on Humans.1

System Adverse Effect
neurologic dizziness, lightheartedness, dulling vision and hearing, drowsiness, headache, loss of memory, euphoria nervousness, numbness or tingling in fingers or toes
gastrointestinal nausea, loss of appetite abdominal distress, varices of esophagus or stomach, black stools, bloody vomitus
cardiovascular increased blood pressure Raynaud's Syndrome
hepatic liver enlargement, liver function abnormalities, increased sulphbromophthalein retention liver damage, serum enzyme abnormalities
respiratory coughing and sneezing bronchial rales, emphyzema, pulmonary fibrosis, decreased respiratory function lung function disturbances
hematologic anemia, reticulocytosis, leukopenia, thrombocytopenia, splenomegaly
dermatologic contact dermatitis, scleroderma-like skin changes
musculoskeletal calf and joint pain, acroosteolysis
other increased perspiration cold sensation in fingers and hands, fatigue, weight loss, weakness, impotency

Other Vinyl Halides

There is a lack of information regarding the carcinogenicity of vinyl fluoride and vinylidene fluoride. However, both have been shown to be mutagenic in bacterial systems.1 This evidence of mutagenicity is cause for concern.

Uses, Exposures, and Exposure Standards

The vinyl halides are of widespread industrial use, especially in the plastics industry. They are easily polymerized and copolymerized with various materials such as acrylonitrile, vinyl acetate, and styrene, to form pliable, lightweight plastics or thermoplastic resins. Table 3 summarizes the major industries in which workers are potentially exposed to vinyl halides, according to the NIOSH National Occupational Hazards Survey (NOHS).

Table 3. Some Industries Which Use Vinyl Halides Based on NIOSH NOHS Data.34

Chemical* Industries
vinyl chloride chemicals and allied products electrical equipment and supplies furniture and fixtures
vinyl bromide chemicals and allied products rubber and plastics products leather and leather products fabricated metal products wholesale trade
vinylidene chloride chemicals and allied products special trade contractors fabricated metal products general building contractors wholesale trade leather and leather products
vinylidene fluoride chemicals and allied products machinery, except electrical electrical equipment and supplies food and kindred products medical and other health services

*No NOHS information available for vinyl fluoride [return to table]

From 1972-1974, NIOSH conducted the NIOSH National Occupational Hazards Survey (NOHS), on a sample of about 900,000 employees at 4,636 facilities, in order to determine the potential for worker exposure to chemicals and physical agents.

NOHS algorithms used Bureau of the Census 1970 population counts to permit extrapolation from the sample to the United States worker population of 1970. Table 4 presents a summary of NOHS estimates of worker exposure to vinyl halides.34

The exposure estimates include two categories. Definite estimates are extrapolated from actual observations of the use of the specific chemical or the use of a trade name product, known to contain the chemical. Probable estimates include additional extrapolations from observations of trade name products suspected of containing the chemical because of generic formulations.

Table 4. Vinyl Halide Exposures.34

Chemical Estimated Number of Workers Potentially Exposed
Definite Probable
vinyl chloride
27,000
2,200,000
vinyl bromide
360
26,000
vinylidene chloride
6,500
58,000
vinylidene fluoride
1,900
32,OOO
vinyl fluoride
NOT AVAILABLE
NOT AVAILABLE

Summaries of the current Department of Labor - Occupational Safety and Health Administration (OSHA) exposure standards and NIOSH recommended exposure standards for the vinyl halide compounds are given in Table 5.

Table 5. Vinyl Halide Exposure Standards.1,35

Chemical OSHA Exposure Standard (ppm) 1978 NIOSH Recommended Exposure Standard (ppm)
vinyl chloride
1
1
vinyl bromide
none
1
vinylidene chloride
none
1
vinylidene fluoride
none
1
vinyl fluoride
none
1

Recommendations

Vinyl chloride is regulated by OSHA as a demonstrated carcinogen in humans with an occupational exposure limit of 1 ppm. Recent evidence for vinyl bromide and vinylidene chloride demonstrates a pattern of tumor induction in animals similar to that of vinyl chloride, including angiosarcomas at low exposure levels. Safe levels of exposure to carcinogens have not been demonstrated, but decreasing exposure may in general reduce the probability of cancer development. Therefore, as a prudent measure NIOSH and OSHA recommend that occupational exposure to vinyl bromide and vinylidene chloride be reduced to the lowest possible levels. Exposures should be limited to as few employees as possible, and workplace exposure levels should be reduced with engineering and work practice controls.

Detailed NIOSH recommendations for the control of exposure to these substances in the workplace are contained in the Vinyl Halides Criteria Document.1

[signature]
Eula Bingham, Ph.D.
Assistant Secretary of Labor
Occupational Safety and Health
Administration

[signature]
J. Michael Lane, M.D.
Acting Director
National Institute for Occupational
Safety and Health

References

  1. U.S. Department of Health, Education and Welfare, Public Health Service, Center for Disease Control, National Institute for Occupational Safety and Health. Criteria for a Recommended Standard .... Occupational Exposure to Vinyl Halides. (To be published late 1978 - Transmitted to OSHA September 12, 1978).
  2. Maltoni, C: Predictive Value of Carcinogenesis Bioassays. N.Y. Acad. Sci. 271:431-447 (1976).
  3. Huntingdon Research Center, HRC Project 7511-253. 18-Month Sacrifice Pathology Report, (Vinyl Bromide). New York. (June 26, 1978).
  4. Maltoni, C: Recent Findings on the Carcinogenicity of Chlorinated Olefins. Env. Health Perspect. 21:1-5 (1977b).
  5. Maltoni, C: Vinyl Chloride Carcinogenicity: An Experimental Model for Carcinogenesis Studies. In: Origins of Human Cancer, H.H. Hiatt, J.D. Watson, and J.A. Winston, eds., Cold Spring Harbor, 4:119-146 (1977a).
  6. Bartsch, H., C. Malaveille, R. Montesano: Human, Rat and Mouse Liver-Mediated Mutagenicity of Vinyl Chloride in S. Typhimurium Strains. Int. J. Cancer 15:429-437 (1975).
  7. Rannug, U., A. Johansson, C. Ramel, and C.A. Wachtmeister: The Mutagenicity of Vinyl Chloride After Metabolic Activation. Ambio. 3:194-197 (1974).
  8. Garro, A.J., J.B. Guttenpaln, and P. Milvy: Vinyl Chloride Dependent Mutagenesis: Effects of Liver Extracts and Free Radicals. Mutat. Res. 38(2):81-88 (1976).
  9. Andrews, A.W., E.S. Zawistowski, and C.R. Valentine: A Comparison of the Mutagenic Properties of Vinyl Chloride and Methyl Chloride. Mutat. Res. 40:273 (1976).
  10. McCann, J., E. Choi, E. Yamasake, and B.N. Ames: Detection of Carcinogens as Mutagens in the Salmonella/Microsome Test: Assay of 300 Chemicals. Proc. Nat. Acad. Sci. 72 (12):5135-5139 (1975).
  11. Loprieno, N., R. Barale, and S. Baroncelli: Evaluation of the Genetic Effects Induced by Vinyl Chloride Monomer (VCM) Under Mammalian Metabolic Activation: Studies In Vitro and In Vivo. Mutat. Res. 40:85-95 (1976).
  12. Greim H., G. Bonse, Z. Radwan, D. Reichert, and D. Henschler: Mutagenicity In Vitro and Potential Carcinogenicity of Chlorinated Ethylenes as a Function of Metabolic Oxirane Formation. Biochem. Pharmacol. 24:2O13-2,017 (1975).
  13. Henschler D: Metabolism and Mutagenicity of Halogenated Olefins--A Comparison of Structure and Activity. Unpublished Report Submitted to National Institute for Occupational Safety and Health by Henschler, D., University of Wurzburg, Institute for Toxicology and Pharmacology, Wurzburg, West Germany, 19 pp. (April 1977).
  14. Henschler D., G. Bonse, and H. Greim: Carcinogenic Potential of Chlorinated Ethylenes--Tentative Molecular Rules. INSERM 52:171-175 (1976).
  15. Bartsch H., and R. Montesano: Mutagenic and Carcinogenic Effects of Vinyl Chloride. Mutat. Res. 32:93-113 (1975).
  16. Magnusson J., and C. Ramel: Mutagenic Effects of Vinyl Chloride in Drosophila Melanogaster. Mutat. Res. 38:115 (1976).
  17. Personal Communication dated May 6, 1976 from Mr. Arnold H. Sparrow, Brookhaven National Laboratory, to Dr. Peter Infante National Institute for Occupational Safety and Health (NIOSH).
  18. Bartsch, H., C. Malaveille, A. Barbin, G. Planche, and R. Montesano: Alkylating and Mutagenic Metabolites of Halogenated Olefins Produced by Human and Animal Tissues. Proc. Amer. Assoc. Cancer Res. 17 March (1976).
  19. Correspondence, May 21, 1976, Ethyl Corporation to National Institute for Occupational Safety and Health (NIOSH).
  20. Bartsch, H., C. Malaveille R. Montesano, and L. Tomatis: Tissue Mediated Mutagenicity of Vinylidene Chloride and 2-Chlorobutadiene in Salmonella Typhimurium. Nature 255:641-643 (1975).
  21. Baden, J., R. Whurton, B. Hitt, M. Brinkenhoff, V. Simmons, and R. Mazze: Mutagenicity of Volatile Anesthetics. Fed. Proc. 35:410 (1976).
  22. Barsch, H., C. Malaveille, and R. Montesano: The Predictive Value of Tissue-- Mediated Mutagenicity Assays to Assess the Carcinogenic Risk of Chemicals In: Screening Tests in Chemical Carcinogenesis. IARC Scientific Publications No.. 12., eds., Montesano, R., H. Barsch, and L. Tomatis, Lyon, France, World Health Organization, International Agency for Research on Cancer 467-491 (1976).
  23. Reinl, W., H. Weber, E. Greiser: Epidemiologische Studies Uber Die Sterblichkeit Vinylchlorid(VC)-Exponierter Arbeiter in der Bundesrepublik. Deutschland Medichem. (September 1977).
  24. Ott, M.G., W.A. Fishbeck, J.C. Townsend, E.J. Schneider: A Health Study of Employees Exposed to Vinylidene Chloride. J. Occup. Med. 18:735-738 (1976).
  25. Leonard A., G. Decat, E.D. Leonard, M.J. Lefevre, L.J. Decuyper, C. Nicaise: Cytogenetic Investigations on Lymphocytes from Workers Exposed to Vinyl Chloride. J. Toxicol. Environ. Health. 2:1135-1141 (1977).
  26. Heath, C.W. Jr., C.R. Dumont, J. Gamble, R.J. Waxweiler: Chromosomal Damage in Men Occupationally Exposed to Vinyl Chloride Monomer and Other Chemicals. Environ. Res. 14:68-72 (1977).
  27. Ducatman, A., K. Hirschhorn, I.J. Selikoff: Vinyl Chloride Exposure and Human Chromosome Aberrations. Mutat. Res. 31:163-168 (1975).
  28. Funes-Cravioto, F.B. Lambert, J. Lindsten, L. Ehrenberg, A.T. Natarajan, and S. Osterman-Golkar: Chromosome Aberrations in Workers Exposed to Vinyl Chloride. Lancet 1:459 (1975).
  29. Plurchase, I.F.H., C.R. Richardson, and D. Anderson: Chromosomal and Dominant Lethal Effects of Vinyl Chloride. Lancet 2:410-11 (1975).
  30. Szentesi, I., E. Hornyaki, G. Ungvary, A. Gzeizel, Z. Bognar, and M. Timar: High Rate of Chromosomal Aberration in PVC Workers. Mutat. Res. 37:313- 316 (1976).
  31. Purchase, I.F.H., C.R. Richardson, D. Anderson, G.M. Paddle, and W.G.F. Adams: Chromosomal Analyses in Vinyl Chloride-Exposed Workers. Mutat. Res. 57: 325-334 (1978).
  32. Infante, P.F., J.K. Wagoner, A.J. McMichael, R.J. Waxweiler, and H. Falk: Genetic Risks of Vinyl Chloride. Lancet 1:734-735 (1976),
  33. Infante, P.F., J.K. Wagoner, and R.J. Waxweiler: Carcinogenicity Mutagenic and Teratogenic Risks Associated with Vinyl Chloride. Mutat. Res. 41:131-142 (1976).
  34. Personal Communications dated August 1978 from Mr. David P. Sundin, Division of Surveillance, Hazard Evaluations and Field Studies, National Institute for Occupational Safety and Health (NIOSH), to Leonard J. Bahlman, Office of Extramural Coordination and Special Projects (NIOSH).
  35. United States Department of Labor, Occupational Safety and Health Administration: General Industry Standards, OSHA Publication 2206, 29 CFR 1910.1017 (January 1976).

Identifiers and Synonyms for Vinyl Chloride

Chemical Abstracts Service Registry Number 75-01-4
NIOSH RTECS Number KU96250
Chemical Formula C2H3Cl

Chlorethene Monochloroethylene
Chlorethylene Trovidur
Chloroethene VC
Chloroethylene VCM
Ethene, Chloro- Vinyl Chloride
Ethylene, Chloro- Vinyl Chloride Monomer
Ethylene Monochloride Vinyl C Monomer
Monochloroethene

Identifiers and Synonyms for Vinyl Bromide

Chemical Abstracts Service Registry Number 593-60-2
NIOSH RTECS Number KU84000
Chemical Formula C2H3Br

Bromoethene Ethylenep Brom-
Bromoethylene NCI-C50373
Ethene, Bromo- Vinyl Bromide

Identifiers and Synonyms for Vinylidene Chloride

Chemical Abstracts Service Registry Number 75-35-4
NIOSH RTECS Number KV92750
Chemical Formula C2H2Cl2

1,1,-DCE NCI-C54262
1,1,-Dichloroethene Sconatex
1,1,-Dichloroethylene Vinylidene Chloride
Ethene, l,l,-Dichloro- Vinylidene Chloride (II)
Ethylene, 1,1,-Dichloro

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