Reversible Inhibition of Human Platelet Activation by Hypothermia In Vivo and In Vitro

血小板 血小板活化 体内 全血 下调和上调 离体 药理学 出血时间 医学 血栓素 体温过低 化学 体外 免疫学 内科学 生物化学 生物 基因 生物技术 血小板聚集
作者
Alan D. Michelson,Hollace MacGregor,Marc R. Barnard,Anita S. Kestin,Michael J. Rohrer,C. R. Valeri
出处
期刊:Thrombosis and Haemostasis [Thieme Medical Publishers (Germany)]
卷期号:71 (05): 633-640 被引量:396
标识
DOI:10.1055/s-0038-1642495
摘要

Summary A hypothermia-induced hemorrhagic diathesis is associated with cardiopulmonary bypass, major surgery, and multiple trauma, but its pathophysiological basis is not well understood. We examined the hypothesis that hypothermia reversibly inhibits human platelet activation in vitro and in vivo. Platelet activation was studied in normal volunteers by whole blood flow cytometric analysis of modulation of platelet surface GMP-140 and the glycoprotein (GP) Ib-IX complex in: a) shed blood emerging from a standardized in vivo bleeding time wound; b) peripheral blood activated in vitro with either thrombin (in the presence of gly-pro-arg-pro, an inhibitor of fibrin polymerization) or the stable thromboxane (TX) A2 analogue U46619. Platelets in peripheral whole blood were activated at temperatures between 22° C and 37° C. the forearm skin temperature was maintained at temperatures between 22° C and 37° C prior to and during the bleeding time incision. Platelet aggregation was studied in shed blood by flow cytometry and in peripheral blood by aggregometry. Generation of TXB 2 (the stable metabolite of TXA 2) was determined by radioimmunoassay. In vitro, hypothermia inhibited both thrombin- and U46619-induced upregulation of GMP-140, downregulation of the GPIb-IX complex, platelet aggregation, and TXB2 generation. These inhibitory effects of hypothermia were all completely reversed by rewarming the blood to 37° C. In vivo, platelet activation was inhibited by hypothermia as shown by 5 independent assays of shed blood: upregulation of GMP-140, downregulation of the GPIb-IX complex, platelet aggregate formation, TXB 2 ggeneration, and the bleeding time. In summary, by a combination of immunologic, biochemical, and functional assays, we demonstrate that hypothermia inhibits human platelet activation in whole blood in vitro and in vivo. Rewarming hypothermic blood completely reverses the activation defect. These results suggest that maintaining normothermia or rewarming a hypothermic bleeding patient may reduce the need for platelet transfusions.

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