Stevenson De scite author profile

Stevenson De

3Publications

1Citation Statement Received

42Citation Statements Given

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Shell (United States)

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Vitamin E Modulation of Dieldrin-Induced Hepatic Focal Lesion Growth in Mice

Kolaja

Xu²,

Ef³

et al. 1998

Journal of Toxicology and Environmental Health, Part A

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The effect of vitamin E on dieldrin-induced hepatic focal lesion growth in male B6C3F1 mice previously treated with diethylnitrosamine (DEN) was investigated. After hepatic focal lesions were formed, mice were placed into one of the following treatment groups: Group 1, 50 mg vitamin E/kg diet (control NIH-07 diet); Group 2, 10 mg dieldrin/kg NIH-07 diet; Group 3, 10 mg dieldrin and 450 mg vitamin E/kg NIH-07 diet; and Group 4, 450 mg vitamin E/kg NIH-07 diet. Mice were killed and necropsied after 30 and 60 d of dietary treatment. The effect of treatment on lesion growth was examined by measuring the number of focal lesions per liver and the relative hepatic focal lesion volume. In addition, the possible cellular mechanism of focal hepatocyte growth was investigated by examining both focal DNA synthesis and apoptosis. Dieldrin treatment alone (Group 2) increased the focal lesion volume, focal lesion number, and focal lesion labeling index. Supplementation with vitamin E (Group 3) blocked this effect. Vitamin E supplementation to the diet alone (Group 4) also enhanced focal lesion growth and increased the number of lesions per liver, the relative focal volume, and the labeling index in hepatic focal lesions. Interestingly, vitamin E supplementation inhibited apoptosis in normal liver but did not produce an observable decrease in apoptosis in hepatic focal lesions. The present study showed that dieldrin (Group 2) or vitamin E supplementation alone (Group 4) promoted the growth of hepatic focal lesions in mice. However, when vitamin E is supplemented to dieldrin-fed mice (Group 3), there is an inhibition of hepatic focal lesion growth.

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Post-COVID-19 male hypogonadism: an area of endocrine concern?

Lin¹,

Graf²,

De³

et al. 2023

EJEA

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Current problems in the choice of animals for toxicity testing

1979

Journal of Toxicology and Environmental Health

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Animal models for the study of toxicity are chosen more for pragmatic reasons such as life-span, ease of handling, and economics than because of a comprehensive process of validation. There is also a tendency to seek the answers to nonspecific questions and then to use those answers in situations where they cannot lead to proper judgments. In some cases, such as in carcinogenicity testing, an uneasy compromise exists between the sensitivity of the model and the background noise. There is scope, by increased attention to both the control of environmental factors and the genetics of the animal models, to increase the sensitivity and validity of the systems that are used in toxicology.

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Stevenson De

Vitamin E Modulation of Dieldrin-Induced Hepatic Focal Lesion Growth in Mice

Post-COVID-19 male hypogonadism: an area of endocrine concern?

Current problems in the choice of animals for toxicity testing

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