国家毒理学计划技术报告:对氯- α, α, α三氟甲苯(CAS NO: 98-56-6)在玉米油和α -环糊精中给药对F344/N大鼠和B6C3F1小鼠14天灌胃比较研究中的毒性研究。

Toxicity report series Pub Date : 1992-07-01
C.W. Jameson, J. Yuan
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The elimination of an intravenous dose of CTFT from blood is best described by a triexponential equation. The data best fit a 3-compartment kinetic model with a very rapid distribution phase. A biexponential equation was found to best fit the elimination of CTFT from blood following a gavage dose in either corn oil or an aqueous molecular complex suspension, alpha-CD. However, the biological half-life (t 1/2) was the same in both routes, approximately 20 hours. Absorption of CTFT from the alpha-CD vehicle was found to be much faster than from corn oil. The average t 1/2 of the absorption phase for a 10 mg/kg dose of CTFT in the alpha-CD and corn oil vehicles was 7 and 150 minutes, respectively. Despite the differences in absorption, no statistical difference was observed in the calculated area under blood concentration versus time curves (AUC) obtained from rats dosed with CTFT in either vehicle. Blood concentrations of CTFT were proportional to dose, at levels as high as 400 mg/kg in both vehicles. The bioavailability of CTFT was shown to be complete in both vehicles, through comparing the AUC following oral and i.v. dosing. In 14-day toxicity studies, 1 of 10 female rats given the top dose of 1000 mg/kg CTFT in corn oil died on day 8; no deaths of male rats or of mice of either sex were attributable to the administration of CTFT. Body weight gains in all groups of rats and mice were similar with the exception of the top dose (1000 mg/kg) groups of male and female rats, which lost weight during the first week and resumed weight gain during the second. CTFT was found to accumulate in the kidneys of male rats, and there was a linear relationship between the kidney CTFT concentrations and the kidney levels of a2u-globulin, as determined by an ELISA assay. 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引用次数: 0

摘要

对氯- α, α, α三氟甲苯(CTFT)是一种挥发性芳香液体,用作制造二硝基苯胺类除草剂的化学中间体。为了评估CTFT的毒性,F344/N大鼠和B6C3F1小鼠各组分别在玉米油或实验分子复合物载体a-环糊精(α - cd)中灌胃CTFT,每天1次,连续14天。α - cd载体CTFT选择的剂量水平分别为10、50和400 mg/kg;玉米油载体的剂量水平分别为10、50、400和1000 mg/kg。通过灌胃和静脉给药,比较了CTFT的毒动力学。在遗传毒性研究中,CTFT对鼠伤寒沙门氏菌没有诱变作用。从血液中消除静脉注射剂量的CTFT最好用三指数方程来描述。数据最适合分布阶段非常快的3室动力学模型。发现双指数方程最适合在灌胃玉米油或水分子络合物悬浮液α - cd后血液中CTFT的消除。然而,两种途径的生物半衰期(t1 /2)是相同的,大约为20小时。从α - cd载体中吸收CTFT比从玉米油中吸收CTFT要快得多。10 mg/kg CTFT在α - cd和玉米油培养液中的平均吸收期分别为7分钟和150分钟。尽管在吸收方面存在差异,但两种药组大鼠的血药浓度与时间曲线(AUC)下的计算面积没有统计学差异。CTFT的血药浓度与剂量成正比,两种载具的CTFT血药浓度均高达400mg /kg。通过比较口服和静脉给药后的AUC,两种载体中CTFT的生物利用度都是完全的。在14天的毒性研究中,给予玉米油中CTFT最高剂量1000 mg/kg的10只雌性大鼠中有1只在第8天死亡;没有雄性大鼠或雌雄小鼠的死亡可归因于给药CTFT。除最高剂量组(1000 mg/kg)雄性和雌性大鼠在第一周体重减轻,在第二周体重恢复增加外,所有各组大鼠和小鼠的体重增加相似。发现CTFT在雄性大鼠的肾脏中积累,并且通过ELISA测定肾脏CTFT浓度与肾脏a2o -球蛋白水平之间存在线性关系。雄性大鼠的显微变化包括与剂量相关的中毒性肾病,与先前描述的“透明液滴肾病”一致。给药的雄性和雌性大鼠均出现肝细胞肥大和肾上腺皮质细胞质空泡化。临床病理显示大鼠出现轻度贫血和胆汁淤积。与大鼠相比,小鼠在任何被评估的组织中都没有显示出明显的CTFT浓度,这表明该化学物质的消除速度更快。然而,400和1000 mg/kg剂量组小鼠肝细胞肥大,临床病理结果与胆汁淤积和轻度肝损伤一致。这些研究表明,口服400 mg/kg或更高剂量的CTFT可引起大鼠和小鼠的肝脏肥大和大鼠的肾上腺变化。50mg /kg或更高剂量可引起雄性大鼠“透明液滴肾病”。结果与CTFT在玉米油或α - cd中施用的结果相似(尽管α - cd对CTFT的吸收更快),这表明α - cd可能是与其他化学品进行毒性研究的适当载体。同义词:CTFT;(p-Chloro-4) - trifluoromethyl苯;(p-chlorophenyl)三氟甲烷;4-chlorobenzotrifluoride;苯、1-chloro-4 - (trifluoromethyl);(p) - trifluoromethyl chloro-benzene;p-chlorobenzotrifluoride;p-chlorotri-fluoromethylbenzene;p-trifluoromethylphenyl氯;parachloro-alpha,α,αtrifluorotoluene;parachlorobenzotrifluoride;parachlorotrifluoro-methylbenzene。
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NTP technical report on the toxicity studies of para-Chloro-alpha,alpha,alpha Trifluorotoluene (CAS NO: 98-56-6) Administered in Corn Oil and alpha-Cyclodextrin to F344/N Rats and B6C3F1 Mice in 14-Day Comparative Gavage Studies.

p-Chloro-alpha,alpha,alpha trifluorotoluene (CTFT) is a volatile, aromatic liquid used as a chemical intermediate in the manufacture of dinitroaniline herbicides. To evaluate the toxicity of CTFT, groups of F344/N rats and B6C3F1 mice of each sex were administered CTFT by gavage once a day for 14 consecutive days in either corn oil or in an experimental molecular complex vehicle, a-cyclodextrin (alpha-CD). Dose levels selected for CTFT with the alpha-CD vehicle were 10, 50, and 400 mg/kg; dose levels used with the corn oil vehicle were 10, 50, 400, and 1000 mg/kg. The toxicokinetics of CTFT also were compared by gavage with the different vehicles and by i.v. administration. In genetic toxicity studies, CTFT was not mutagenic in Salmonella typhimurium. The elimination of an intravenous dose of CTFT from blood is best described by a triexponential equation. The data best fit a 3-compartment kinetic model with a very rapid distribution phase. A biexponential equation was found to best fit the elimination of CTFT from blood following a gavage dose in either corn oil or an aqueous molecular complex suspension, alpha-CD. However, the biological half-life (t 1/2) was the same in both routes, approximately 20 hours. Absorption of CTFT from the alpha-CD vehicle was found to be much faster than from corn oil. The average t 1/2 of the absorption phase for a 10 mg/kg dose of CTFT in the alpha-CD and corn oil vehicles was 7 and 150 minutes, respectively. Despite the differences in absorption, no statistical difference was observed in the calculated area under blood concentration versus time curves (AUC) obtained from rats dosed with CTFT in either vehicle. Blood concentrations of CTFT were proportional to dose, at levels as high as 400 mg/kg in both vehicles. The bioavailability of CTFT was shown to be complete in both vehicles, through comparing the AUC following oral and i.v. dosing. In 14-day toxicity studies, 1 of 10 female rats given the top dose of 1000 mg/kg CTFT in corn oil died on day 8; no deaths of male rats or of mice of either sex were attributable to the administration of CTFT. Body weight gains in all groups of rats and mice were similar with the exception of the top dose (1000 mg/kg) groups of male and female rats, which lost weight during the first week and resumed weight gain during the second. CTFT was found to accumulate in the kidneys of male rats, and there was a linear relationship between the kidney CTFT concentrations and the kidney levels of a2u-globulin, as determined by an ELISA assay. Microscopic changes in male rats included a dose-related toxic nephropathy consistent with that previously described as "hyaline droplet nephropathy." Dosed male and female rats also had hepatocyte hypertrophy and cytoplasmic vacuolization of the adrenal cortex. Clinical pathology findings suggested a mild anemia and cholestasis in rats. In contrast to rats, mice did not show appreciable CTFT concentrations in any tissue evaluated, suggesting a more rapid elimination of the chemical. However, hepatocellular hypertrophy, and clinical pathology findings consistent with cholestasis and mild liver injury, were noted in mice in the 400 and 1000 mg/kg dose groups. These studies demonstrated that oral doses of CTFT of 400 mg/kg or higher caused liver hypertrophy in rats and mice and adrenal changes in rats. Doses of 50 mg/kg or higher caused "hyaline droplet nephropathy" in male rats. The results were similar with CTFT administered either in corn oil or in alpha-CD (although absorption of CTFT was somewhat more rapid with alpha-CD), suggesting that alpha-CD may be an appropriate vehicle for toxicity studies with other chemicals. Synonyms: CTFT; p-Chloro-4-(trifluoromethyl) benzene; (p-chlorophenyl) trifluoromethane; 4-chlorobenzotrifluoride; Benzene, 1-chloro-4-(trifluoromethyl)-; p-(trifluoromethyl) chloro-benzene; p-chlorobenzotrifluoride; p-chlorotri-fluoromethylbenzene; p-trifluoromethylphenyl chloride; parachloro-alpha,alpha,alpha trifluorotoluene; parachlorobenzotrifluoride; parachlorotrifluoro-methylbenzene.

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