染色体畸变及其与金属致癌作用的相关性。
Chromosome aberrations and their relevance to metal carcinogenesis.
作者信息
Vainio H, Sorsa M
出版信息
Environ Health Perspect. 1981 Aug;40:173-80. doi: 10.1289/ehp.8140173.
Abstract
Scoring for structural chromosome abnormalities is one of the only practical methods available for detecting visual damage in human genetic material. Cytogenetic tests in vivo and in vitro have shown the clastogenic potential of a number of metals and metal compounds. The difficulties in in vivo studies lie in identifying a specific clastogen in an occupational setting, where simultaneous exposure to a number of organic and inorganic chemicals is a common phenomenon. Metals known to be carcinogens in animals also tend to possess chromosome-damaging properties, even though more extensive studies are needed before any conclusive evidence can be reached. The visible chromosomal damage produced by exposure to metal compounds should be considered as a warning indication of potentially adverse genetic and somatic effects in humans.
摘要
对染色体结构异常进行评分是检测人类遗传物质可见损伤的少数实用方法之一。体内和体外细胞遗传学测试已显示多种金属和金属化合物具有致断裂潜力。体内研究的困难在于在职业环境中识别特定的断裂剂,在这种环境中同时接触多种有机和无机化学物质是常见现象。已知在动物中具有致癌性的金属也往往具有破坏染色体的特性,尽管在得出任何确凿证据之前还需要进行更广泛的研究。接触金属化合物所产生的可见染色体损伤应被视为对人类潜在不良遗传和体细胞效应的警示信号。
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