Halogenated One-Carbon Compounds

Patty's Toxicology Pub Date : 2012-08-17 DOI:10.1002/0471435139.TOX062.PUB2

J. B. Reid, C. Muianga

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A comprehensive review was provided in Mutation Research in conjunction with the IARC review. The trihalomethanes (THMs)—chloroform, bromoform, bromodichloromethane, and chlorodibromomethane—are regulated by the U.S. EPA at a level of 80 μg/L (for total halomethanes) and are included in 600 drinking water DBPs. Together, the THMs and haloacetic acids (HHAs) are the two most prevalent classes of DBPs formed in chlorinated drinking water, accounting for approximately 25% of the halogenated DBPs. Of concern is the demonstrated human carcinogenicity of many of the DBPs. The WHO in Trihalomethanes in Drinking-Water (background document for development of WHO Guidelines for Drinking-Water Quality) provides a thorough discussion of four compounds considered the most common forms of halomethanes present in drinking water. These are chloroform, bromodichloromethane, dibromochloromethane, and bromoform. 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引用次数: 1

Abstract

Chlorinated methanes (also ethanes) are among the most widely used and useful chemical compounds. There are potentially 26 compounds with other multiple halogen substitutions. Eleven important or representative compounds were selected to discuss in this chapter. The physical states vary from colorless gases: methyl chloride and methyl bromide; colorless liquids: methyl iodide, methylene chloride, methylene bromide, chloroform, bromoform (heavy), and carbon tetrachloride; and a yellow solid, iodoform, and colorless solid; carbon tetrabromide. The main use of methyl chloride is in the manufacture of silicone while methylene chloride, chloroform, and carbon tetrachloride have been used as solvents, paint removers, degreasers, cleaning compounds, and chemical intermediates. The following table provides toxicity information (reference doses, RfD; reference concentrations, RfC; oral slope factors (carcinogen), OSF; and inhalation unit risks (carcinogen), IUR) from Integrated Risk Information Service (IRIS). It can be seen that the RfDs (oral exposure for lifetime) for the chemicals that have been evaluated are in the order of 10−2 to 10−3 mg/kg/day. The inhalation RfCs (inhalation exposure) for chemicals that have been evaluated are 10−2 to 10−3 mg/m3. For the chemicals indicated as either probable human carcinogens or methylene chloride, chloroform, bromoform, and likely to be a human carcinogen, carbon tetrachloride, the OSF (per mg/kg/day) are in the order of 10−2 to 10−3. The IURs for the chemicals evaluated are of the order of 10−5 to 10−6 per μg/m3. Fluorene compounds are not included in this chapter as they represent a very special case of halogenated compounds. Chemical RfD (mg/kg/day RfC (mg/m3) Cancer Description OSF (Per mg/kg/day) IUR (Per μg/m3) References Methyl chloride None 9E−2 Brain Not classified None None Toxicological Review (2001) Methyl bromide 1.4E−3 5E−3 Nasal Not classified None None No Toxicological Review Methyl iodide None None None None None No Toxicological Review Methylene chloride 6E−2 Liver None Probable human 7.5E−3 4.7E−7 No Toxicological Review Methylene bromide None None None None None None Chloroform 1E−2 Liver None Probable human RfD 1E−2 2.3E−5 Toxicological Review (2001) Bromoform 2E−2 Liver None Probable human 7.9E−3 1.1E−6 No Toxicological Review Iodoform None None None None None No Toxicological Review Carbon tetrachloride 4E−3 Serum SDH 1E−1 Likely human 7E−2 6E−6 Toxicological Review (2010) Carbon tetrabromide None None None None None No Toxicological Review Methylene chlorobromide None None None None None No Toxicological Review Several of the compounds listed in the above table are receiving attention because of their presence as disinfection by-products (DBPs): products formed in reaction with chlorine, ozone, chlorine dioxide, or chloramines with naturally occurring organic matter in drinking water. A comprehensive review was provided in Mutation Research in conjunction with the IARC review. The trihalomethanes (THMs)—chloroform, bromoform, bromodichloromethane, and chlorodibromomethane—are regulated by the U.S. EPA at a level of 80 μg/L (for total halomethanes) and are included in 600 drinking water DBPs. Together, the THMs and haloacetic acids (HHAs) are the two most prevalent classes of DBPs formed in chlorinated drinking water, accounting for approximately 25% of the halogenated DBPs. Of concern is the demonstrated human carcinogenicity of many of the DBPs. The WHO in Trihalomethanes in Drinking-Water (background document for development of WHO Guidelines for Drinking-Water Quality) provides a thorough discussion of four compounds considered the most common forms of halomethanes present in drinking water. These are chloroform, bromodichloromethane, dibromochloromethane, and bromoform. These compounds are liquids at room temperature, relatively to extremely volatile, and only slightly soluble in water. As in the previous editions, this chapter includes relevant information provided in earlier editions along with updated information from several sources including National Toxicology Program (NTP), IRIS, and the Agency for Toxic Substances and Disease Registry (ATSDR) websites. Keywords: Bromoform; carbon tetrachloride; chloroform; cyanosis; fire extinguishing agents; disinfection by-products; iodoform; lacrimator; methyl bromide; methyl chloride; methyl iodide; methylene chloride; refrigerant; solvents; tetrabromomethane

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卤化单碳化合物

氯化甲烷(也称乙烷)是使用最广泛和最有用的化合物之一。可能有26种化合物含有其他多重卤素取代。本章选取了11个重要的或具有代表性的化合物进行讨论。其物理状态有以下几种:无色气体:氯甲烷和甲基溴;无色液体:碘化甲酯、二氯甲烷、二甲基溴、氯仿、溴仿(重)和四氯化碳;一种黄色固体，碘仿，无色固体;四溴化碳。氯甲烷的主要用途是制造有机硅，而二氯甲烷、氯仿和四氯化碳则被用作溶剂、除漆剂、脱脂剂、清洁化合物和化学中间体。下表提供了毒性信息(参考剂量，RfD;参考浓度，RfC;口腔斜坡因子(致癌物);和吸入单位风险(致癌物)，IUR)来自综合风险信息服务(IRIS)。可以看出，所评估的化学物质的终生口服暴露量(rfd)为10−2至10−3 mg/kg/天。已评估的化学品的吸入rfc(吸入暴露)为10−2至10−3 mg/m3。对于可能的人类致癌物或二氯甲烷、氯仿、溴仿以及可能是人类致癌物的四氯化碳，OSF(每毫克/千克/天)的数量级为10−2至10−3。所评估的化学物质的IURs为每μg/m3 10−5至10−6。芴化合物不包括在本章中，因为它们是卤化化合物的一种非常特殊的情况。化学RfD (mg/kg/day RfC (mg/m3)癌症描述OSF(每mg/kg/day) IUR(每μg/m3)参考文献氯甲烷无9E−2脑未分类无无毒理学审查(2001)甲基溴1.4E−3 5E−3鼻未分类无无毒理学审查无碘化甲基无无无无无无无毒理学审查二氯甲烷6E−2肝脏无可能人7.5E−3 4.7E−7无毒理学审查亚甲基溴无无无无无氯仿1E−2肝脏无可能的人RfD 1E−2 2.3E−5毒理学审查(2001)溴仿2E−2肝脏无可能的人7.9E−3 1.1E−6没有毒理学审查碘仿无无无无无无无毒理学审查四氯化碳4E−3血清SDH 1E−1可能的人7E−2 6E−6毒理学审查(2010)四溴化碳无无无无无无无无无毒理学审查二氯甲烷无无无无无无毒理学审查上表中列出的几种化合物正在接受由于它们作为消毒副产物(DBPs)的存在而受到关注:与氯、臭氧、二氧化氯或氯胺与饮用水中天然存在的有机物反应形成的产物。《突变研究》与国际癌症研究机构的审查一起进行了全面的审查。三卤甲烷(THMs)——氯仿、溴仿、溴二氯甲烷和氯二溴甲烷——被美国环保署规定为80 μg/L(总卤甲烷)，并包含在600个饮用水dbp中。总的来说，THMs和卤代乙酸(HHAs)是在氯化饮用水中形成的两种最常见的dbp，约占卤代dbp的25%。值得关注的是，许多dbp已被证明具有人类致癌性。世卫组织《饮用水中的三卤甲烷》(世卫组织制定饮用水质量准则的背景文件)对饮用水中被认为是最常见形式的卤甲烷的四种化合物进行了深入讨论。它们是氯仿，溴二氯甲烷，二溴氯甲烷和溴仿。这些化合物在室温下是液体，相对极易挥发，仅微溶于水。与以前的版本一样，本章包括早期版本中提供的相关信息以及来自几个来源的更新信息，包括国家毒理学计划(NTP)， IRIS和有毒物质和疾病登记处(ATSDR)网站。关键词:三溴甲烷;四氯化碳;氯仿;黄萎病;灭火药剂;消毒副产物;碘仿;lacrimator;甲基溴化;氯甲烷;碘甲烷;二氯甲烷;制冷剂;溶剂;四溴甲烷

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