Belastungsinduzierte Veränderungen von Thrombozyten ...
Belastungsinduzierte Veränderungen von Thrombozyten ...
Belastungsinduzierte Veränderungen von Thrombozyten ...
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Literaturliste<br />
325. Tschoepe D., Roesen P., Esser J., Schwippert B., Nieuwenhuis H. K., Kehrel B., Gries F.<br />
A. 1991. Large platelets circualte in an activated state in diabetes mellitus. Semin Thromb<br />
Hemost;17:433-438.<br />
326. Tschoepe D., Schultheiss H. P., Kolarov P., Schwippert B., Dannehl K., Nieuwenhuis H.<br />
K., Kehrel B., Strauer B., Gries F. A. 1993. Platelet membrane activation markers are<br />
predictive for increased risk of acute ischemic events after PTCA. Circulation;88(1):37-42.<br />
327. Tschoepe D. 1994. Markeranalyse und Funktionstests an <strong>Thrombozyten</strong>. In: Schmitz G,<br />
Rothe G, editors. Durchflusszytometrie in der klinischen Zelldiagnostik. Stuttgart New York:<br />
Schattauer Verlagsgesellschaft. p. 429-431.<br />
328. Tschoepe D., Schwippert B. 1997. Platelet flow cytometry - adhesiv proteins. In:<br />
Bruchhausen Fv, Walter U, editors. Platetes and their factors. Berlin Heidelberg New York:<br />
Springer Verlag. p. 619-643.<br />
329. Ulutin T., Sonmez H., Ucisik N., Suer S., Bayram C., Kokoglu E., Sultuybek G. 1997.<br />
The molecular markers of hemostatic activation on coronary artery disease. Thromb<br />
Res;88(3):329-32.<br />
330. Urhausen A., Kindermann W. 1998. Der plötzliche Herztod im Sport. Ther<br />
Umsch;55(4):229-34.<br />
331. Vilen L., Freden K., Kutti J. 1980. Presence of a non-splenic platelet pool in man. Scand<br />
J Haematol;24(2):137-41.<br />
332. Wadenvik H., Kutti J. 1987. The effect of an adrenaline infusion on the splenic blood<br />
flow and intrasplenic platelet kinetics. Br J Haematol;67(2):187-92.<br />
333. Wagner C. T., Kroll M. H., Chow T. W., Hellums J. D., Schafer A. I. 1996. Epinephrine<br />
and shear stress synergistically induce platelet aggregation via a mechanism that partially<br />
bypasses VWF-GP IB interactions. Biorheology;33(3):209-29.<br />
334. Wahba A., Black G., Koksch M., Rothe G., Preuner J., Schmitz G., Birnbaum D. E.<br />
1996. Cardiopulmonary bypass leads to a preferential loss of activated platelets. A flow<br />
cytometric assay of platelet surface antigens. Eur J Cardiothorac Surg;10(9):768-73.<br />
335. Wallen N. H., Goodall A. H., Li N., Hjemdahl P. 1999. Activation of haemostasis by<br />
exercise, mental stress and adrenaline: effects on platelet sensitivity to thrombin and thrombin<br />
generation. Clin Sci;97:27-35.<br />
336. Walther C., Hambrecht R. 2001. Endotheliale Dysfunktion bei kardiovasculären<br />
Erkrankungen: Einfluss <strong>von</strong> körperlicher Aktivität. Deut Z Sportmed;52:215-220.<br />
337. Wang J. S., Jen C. J., Kung H. C., Lin L. J., Hsiue T. R., Chen H. I. 1994. Different<br />
effects of strenuous exercise and moderate exercise on platelet function in men.<br />
Circulation;90(6):2877-85.<br />
338. Wang J. S., Jen C. J., Chen H. I. 1995. Effects of exercise training and deconditioning on<br />
platelet function in men. Arterioscler Thromb Vasc Biol;15(10):1668-74.<br />
339. Wang J. S., Jen C. J., Chen H. I. 1997. Effects of chronic exercise and deconditioning on<br />
platelet function in woman. J Appl Physiol;83:2080-2085.<br />
340. Wang J. S., Cheng L. J. 1999. Effect of strenuous, acute exercise on alpha2-adrenergic<br />
agonist-potentiated platelet activation. Arterioscler Thromb Vasc Biol;19(6):1559-65.<br />
341. Wang J. S., Yen H. L., Yang C. M. 2006. Warm-up exercise suppresses plateleteosinophil/neutrophil<br />
aggregation and platelet-promoted release of eosinophil/neutrophil<br />
oxidant products enhanced by severe exerdise in men. Thromb Haemost;95:490-498.<br />
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