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Predictive Immunotoxicological Test Systems: Suitability of the Popliteal Lymph Node Assay in Mice and Rats |
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Critical Reviews in Toxicology,
Volume 25,
Issue 5,
1995,
Page 369-396
BloksmaNanne,
KubickaMalgorzata,
ChristianHans,
GleichmannErnst,
GleichmannHelga,
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摘要:
AbstractThis article reviews results obtained with popliteal lymph node assays (PLNAs) in rodents and discusses their ability to detect and analyze immunotoxic effects of drugs and other low molecular weight (LMW) chemicals. In its basic form, the PLNA measures activation of the draining lymph node of the hind paw (i.e., the PLN) after injection of a test chemical into the hind foot pad. The assay appears to be appropriate to recognize sensitizing, that is, allergenic and autoimmunogenic, chemicals, as well as nonsensitizing immunostimulatory chemicals. With modifications, PLNAs can detect immunosuppressive chemicals and distinguish sensitizing from nonsensitizing chemicals. Furthermore, modified PLNAs enable detection of known as well as unknown sensitizing metabolites, and may assist in the identification of the self-molecules that act as carriers for chemical sensitization or as targets of chemical-induced autoimmune disease.Experience with PLNAs shows that they are rapid, reproducible, and objective tests for recognition of sensitizing or otherwise immunomodulating chemicals. Because current protocols of toxicity testing are insensitive in predicting a chemical's potential to result in immunomodulation, PLNAs, when further validated, may provide welcome supplements to routine toxicity screening of chemicals, thus enhancing chemical safety.
ISSN:1040-8444
DOI:10.3109/10408449509049338
出版商:Taylor&Francis
年代:1995
数据来源: Taylor
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Physiological and Toxicological Changes in the Skin Resulting from the Action and Interaction of Metal Ions |
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Critical Reviews in Toxicology,
Volume 25,
Issue 5,
1995,
Page 397-462
LansdownAlan B. G.,
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摘要:
AbstractThe human environment contains more than 50 metal or metalloid elements. At least 15 are recognized as trace elements, with zinc, calcium, copper, magnesium, and iron having specific roles in skin morphogenesis and function. The present review focuses on the presumed role of metal ions in the skin, their competition for carrier proteins, and membrane receptors. Evidence presented shows that the balance of trace metal ions is critical for normal skin and repair mechanisms following injury. Xenobiotic ions can impair this balance, leading to pathological change. The skin acts as an organ of elimination of excess trace metals and xenobiotic ions from the body, but mechanisms of voidance vary for different metals.Metal ions are an important cause of allergies, and evidence is presented to show that the majority of metals or metal compounds can induce allergic changes. Except for chromium and nickel, which are among the most common human allergens, animal models have provided little information.At least cadmium, thorium, lead, chromium, nickel, beryllium, and arsenic are proven or putative carcinogens in animals or humans on the basis of cytological or epidemiological evidence. However, only arsenic exhibits a clear predilection for the skin. Other metals such as gold can induce subcutaneous sarcoma following injection, but the relevance of this observation in terms of human occupational risk is discounted.
ISSN:1040-8444
DOI:10.3109/10408449509049339
出版商:Taylor&Francis
年代:1995
数据来源: Taylor
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