对硫磷可能致癌性的生物测定。

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引用次数: 0

摘要

通过给奥斯本-孟德尔大鼠和B6C3F1小鼠喂食试验化学物质,对技术级对硫磷可能的致癌性进行了生物测定。每组50只,雌雄各别,给予对硫磷两种剂量中的一种,持续80周,然后观察32周或33周。男性的时间加权平均剂量为32或63 ppm;对于女性来说,它们是23或45 ppm。在112周或113周时杀死所有存活的大鼠。每组50只雌雄老鼠被注射两种剂量的对硫磷,浓度分别为80或160 ppm。低剂量雄鼠给予对硫磷71周;高剂量雄鼠62周;低剂量和高剂量的雌性老鼠持续80周。然后将这些小鼠饲养观察,并在89或90周时杀死所有存活的小鼠。配对的对照组包括每组10只未经治疗的大鼠或雌雄小鼠;还使用了从其他测试化学品的类似生物测定中提取的大鼠或小鼠的混合对照。在给药期间,高剂量雄性和雌性大鼠以及高剂量和低剂量雄性小鼠的平均体重普遍低于匹配的对照组。其他剂量组的大鼠和小鼠的平均体重与匹配的对照组没有明显差异。由于雌性小鼠的体重和存活率没有受到影响,因此雌性小鼠可能能够耐受更高剂量。两种动物中有足够数量的雄性和雌性动物都有发生晚期肿瘤的风险。在雄性和雌性大鼠中,肾上腺皮质腺瘤或癌的发病率呈剂量相关趋势(P
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bioassay of parathion for possible carcinogenicity.

A bioassay for possible carcinogenicity of technical-grade parathion was conducted by administering the test chemical in the diet to Osborne-Mendel rats and B6C3F1 mice. Groups of 50 rats of each sex were administered parathion at one of two doses for 80 weeks, then observed for 32 or 33 weeks. Time-weighted average doses for males were 32 or 63 ppm; for females, they were 23 or 45 ppm. All surviving rats were killed at 112 or 113 weeks. Groups of 50 mice of each sex were administered parathion at one of two doses, either 80 or 160 ppm. The low-dose males were administered parathion for 71 weeks; the high-dose males for 62 weeks; and the low- and high-dose females for 80 weeks. The animals were then maintained for observation and all surviving mice were killed at 89 or 90 weeks. Matched controls consisted of groups of 10 untreated rats or mice of each sex; pooled controls of rats or mice taken from similar bioassays of other test chemicals were also used. Mean body weights of high-dose male and female rats and of high- and low-dose male mice were generally lower than those of the matched controls during the period of administration of the chemical. Mean body weights of the other groups of dosed rats and mice did not differ appreciably from those of the matched controls. Since body weights and survival of the female mice were not affected, female mice may have been able to tolerate a higher dose. Sufficient numbers of male and female animals of both species were at risk for the development of late-appearing tumors. In both male and female rats, the incidences of cortical adenomas or carcinomas of the adrenal showed dose-related trends (P<0.001) using pooled controls and, in direct comparisons, were higher in the high-dose groups (P<0.001) than in the pooled controls (males: pooled controls 3/80, matched controls 0/9, low-dose 7/49, high-dose 11/46; females: pooled controls 4/78, matched controls 1/10, low-dose 6/47, high-dose 13/42). Most of the tumors were adenomas. When the matched controls were used, dose-related trends in incidences of the adrenal tumors were significant (males, P=0.048; females, P=0.028); in direct comparisons, however, the incidences of the tumors in the individual groups did not differ significantly from those in corresponding matched controls. The incidences of the tumors in the dosed male and female rats were higher than those in corresponding historical controls (males 8/148, females 5/180). In mice, no tumors occurred in either sex at incidences that were significantly higher in the dosed groups than in the corresponding control groups. It is concluded that under the conditions of this bioassay, parathion was not carcinogenic to B6C3F1 mice. In the male and female Osborne-Mendel rats receiving parathion in their diet, there was a higher incidence of cortical tumors of the adrenal than in pooled or historical controls, suggesting that parathion is carcinogenic to this strain of rat.

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