Possible involvement of oxygen-derived free radicals in abnormal hemostasis induced by SART stress (repeated cold stress) in laboratory animals.
Abnormal hemostatic profiles indicating hemorrhagic tendency have been reported in rodents exposed to prolonged fluctuation in ambient temperature, known as SART (specific alternation of rhythm in temperature)-stressed animals. In this study, investigation was made of possible involvement of oxygen-derived free radicals in the development of stress-induced hemostatic alteration. SART-stressed rats and mice exhibited marked decrease in platelet count, fibrinogen level and factor VIII:C activity. Superoxide dismutase, when administered s.c. twice a day to mice for 7 days of stress exposure, inhibited the above alterations. Catalase given in the same manner, had essentially the same effect, though to a lesser extent. Allopurinol administered orally once daily during stress reduced stress-induced thrombocytopenia, but caused considerable increase in fibrinogen and factor VIII:C activity in stressed and unstressed mice. Lipid peroxide significantly increased in the heart but not in the plasma following stress exposure in rats and mice. Active oxygens would thus appear to be, at least partially, involved in the development of abnormal hemostasis induced by SART stress.[1]References
- Possible involvement of oxygen-derived free radicals in abnormal hemostasis induced by SART stress (repeated cold stress) in laboratory animals. Kawabata, A., Hata, T. Thromb. Res. (1993) [Pubmed]
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