[Analysis of acute toxicity (LD50-value) of organic chemicals to mammals by solubility parameter (delta). (1) Acute oral toxicity to rats].

Sangyo igaku. Japanese journal of industrial health Pub Date : 1994-09-01 DOI:10.1539/joh1959.36.5_314

H Nishimura, S Saito, F Kishida, M Matsuo

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引用次数: 4

Abstract

Acute oral toxicity (LD50-value) of organic chemicals to rats was analyzed by using solubility parameter (delta c), a thermodynamic parameter, of the chemicals. Certain parabolic correlations were established between logarithm of LD50-value (mmol/kg body weight, rats) and delta c of all the collected chemicals (n = 144, R = 0.578), alcohols (n = 29, R = 0.587), ketones (n = 7, R = 0.962), aldehydes (n = 9, R = 0.621), ethers (n = 5, R = 0.890), acetates (n = 7, R = 0.670) and aromatics (n = 84, R = 0.736). Introducing molar volume (Vc) to the above equations could not improve the correlation. In the study, we assumed that as for acute toxicity, chemicals taken into the mammals through biological membrane first disturb the homeostasis, which causes certain biological reactions (i.e. death) and that amounts of the chemicals intaken are regulated by their solubility in the membrane. Based on the assumption, we drew a theoretical equation, which describes LD50 by a parabolic function of delta c. A regression analysis using the equation gave significant correlations as stated above, which incarnates the assumption. A solubility parameter of 2.30 x 10(4) (J/m3)1/2 was also determined for the biological membrane (absorption site) of rats. For comparison, log P was used to describe LD50 of all the chemicals, but no correlation was established (R = 0.164-0.443).

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用溶解度参数(δ)分析有机化学品对哺乳动物的急性毒性(ld50值)。(1)大鼠急性口服毒性。

用化学物质的热力学参数溶解度参数(δ c)分析了有机化学物质对大鼠的急性口服毒性(ld50值)。所得化学物质(n = 144, R = 0.578)、醇类(n = 29, R = 0.587)、酮类(n = 7, R = 0.962)、醛类(n = 9, R = 0.621)、醚类(n = 5, R = 0.890)、乙酸酯类(n = 7, R = 0.670)、芳烃类(n = 84, R = 0.736)的ld50值(mmol/kg体重，大鼠)的对数与δ c呈一定的抛物线相关。在上述方程中引入摩尔体积(Vc)并不能改善相关性。在本研究中，我们假设，对于急性毒性，化学物质通过生物膜进入哺乳动物首先扰乱体内平衡，从而引起一定的生物反应(即死亡)，并且化学物质的摄入量受其在生物膜中的溶解度调节。基于这一假设，我们绘制了一个理论方程，该方程用δ c的抛物线函数来描述LD50。使用该方程进行的回归分析得出了如上所述的显著相关性，这体现了这一假设。测定了大鼠生物膜(吸收部位)的溶解度参数为2.30 × 10(4) (J/m3)1/2。为了比较，所有化学物质的LD50都用log P表示，但没有相关性(R = 0.164 ~ 0.443)。

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