Kumar D, Khan P K, Sinha S P
Department of Zoology, Bhagalpur University, India.
Food Chem Toxicol. 1995 Apr;33(4):309-14. doi: 10.1016/0278-6915(94)00147-g.
The no-effect limit dose (NELD) of three commonly used pesticides with respect to their cytogenetic toxicity was determined in a number of test systems using a sufficient number of lower doses to characterize the dose-effect relationship. For lindane, malathion and metacid, this dose was 3.2, 7.0 and 3.0 mg/litre, respectively, for mitosis inhibition and 9.0, 55 and 60 mg/litre, respectively, for chromosome clastogeny in onion root-tip cells. For chromosome clastogeny in mice bone marrow cells, the NELDs of the three pesticides were 1.6, 1.5 and 2.0 mg/kg body weight/day, respectively. These values for dominant lethals and X-chromosome-linked recessive lethals in Drosophila were 20 and 5 micrograms lindane/litre, 2 and 3.5 micrograms malathion/litre and 4 and 5.5 micrograms metacid/litre, respectively. Thus, the NELDs are not only pesticide specific but also organism specific, tissue specific and even damage specific. Furthermore, the NELD values determined are so small that the real human exposure to pesticides cannot be reduced below these levels without compromising the effectiveness of pesticides in use.
在多个测试系统中,使用足够数量的较低剂量来表征剂量 - 效应关系,从而确定了三种常用农药在细胞遗传毒性方面的无效应限量剂量(NELD)。对于林丹、马拉硫磷和灭螨猛,在洋葱根尖细胞中,抑制有丝分裂的该剂量分别为3.2、7.0和3.0毫克/升,导致染色体断裂的剂量分别为9.0、55和60毫克/升。对于小鼠骨髓细胞中的染色体断裂,这三种农药的NELD分别为1.6、1.5和2.0毫克/千克体重/天。在果蝇中,林丹导致显性致死和X染色体连锁隐性致死的这些值分别为20和5微克/升,马拉硫磷为2和3.5微克/升,灭螨猛为4和5.5微克/升。因此,无效应限量剂量不仅因农药而异,还因生物、组织甚至损伤类型而异。此外,所确定的无效应限量剂量值非常小,以至于在不影响现有农药有效性的情况下,无法将人类实际接触农药的水平降低到这些水平以下。
