Belastungsinduzierte Veränderungen von Thrombozyten ...
Belastungsinduzierte Veränderungen von Thrombozyten ...
Belastungsinduzierte Veränderungen von Thrombozyten ...
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Literaturliste<br />
342. Wang J.-S. 2004. Intense exercise increases shear-induced platelet aggregation in men<br />
through enhancement of <strong>von</strong> Willbrand factor binding, glycoprotein IIb/IIIa activation, and Pselectin<br />
expression on platelets. Eur J Appl Physiol;91:741-747.<br />
343. Wang J.-S., Liao C. H. 2004. Moderate-intensity exercise supresses platelet activation<br />
and polymorphonuclear leukocyte interaction with surface-adherent platelets unter shear flow<br />
in men. Thromb Haemost;91(3):587-594.<br />
344. Wang J.-S. 2006. Exercise prescription and thrombogenesis. J Biomed Sci;13:753-761.<br />
345. Warlow C. P., Ogston D. 1974. Effect of exercise on platelet count, adhesion, and<br />
aggregation. Acta Haematol;52(1):47-52.<br />
346. Weineck J. 2002. Optimales Training - Leistungsphysiologische Trainingslehre unter<br />
besonderer Berücksichtigung des Kinder- und Jugendtrainings. 12. Auflage ed. Erlangen:<br />
Spitta Verlag.<br />
347. Weiss C., Jelkmann W. 1997. Funktionen des Blutes. In: Schmidt RF, Thews G, editors.<br />
Physiologie des Menschen. 27. ed. Berlin Heidelberg New York: Springer Verlag. p. 411-447.<br />
348. Weiss C., Seitel G., Bartsch P. 1998. Coagulation and fibrinolysis after moderate and<br />
very heavy exercise in healthy male subjects. Med Sci Sports Exerc;30(2):246-51.<br />
349. Wendling F., Vainchenker W. 1998. Thrombopoietin and its receptor. Eur Cytokine<br />
Netw;9(3):221-31.<br />
350. White J. G. 1994. Platelets and artherosclerosis. E J Clin Invest;24:25-29.<br />
351. White J. G., Burris S., Escolar G. 1999. Influence of thrombin in suspension, surface<br />
activation, and high shear on platelet surface GPIb/IX distribution. J Lab Clin<br />
Med;133(3):245-52.<br />
352. Willich S. N., Lewis M., Lowel H., Arntz H. R., Schubert F., Schroder R. 1993. Physical<br />
exertion as a trigger of acute myocardial infarction. Triggers and Mechanisms of Myocardial<br />
Infarction Study Group. N Engl J Med;329(23):1684-90.<br />
353. Wong C. S., Gamble J. R., Skinner M. P. 1991. Adhesion protein GMP 140 inhibits<br />
superoxide anion release by human neutrophils. Proc Natl Acad Sci U S A;88:2397-2401.<br />
354. Wu K. K., Hoak J. C. 1974. A new method for the quantitative detection of platelet<br />
aggregates in patients with arterial insufficiency. Lancet;2(7886):924-6.<br />
355. Wu K. K., Hoak J. C. 1975. Increased platelet aggregates in patients with transient<br />
ischemic attacks. Stroke;6(5):521-4.<br />
356. Yegutkin G. G., Samburski S. S., Mortensen S. P., Jalkanen S., Gonzalez-Alonso J.<br />
2007. Intravascular ADP and solulble nucleotidases contribute to acute prothrombotic state<br />
during vigorous exercise in humans. J Physiol;579.2:553-564.<br />
357. Yilmaz M. B., Saricam E., Biyikoglu S. F., Guray Y., Guray U., Korkmaz S. 2004. Mean<br />
Platelet Volume and Exercise Stress Test. J Thromb Thrombolysis;17(2):115-34.<br />
358. Zanten G. H. v., Groot P. G. d., Sixma J. J. 1997. Platelet adhesion. In: Bruchhausen Fv,<br />
Walter U, editors. Platelet and ther factors. Berlin Heidelberg New York: Springer Verlag. p.<br />
61-81.<br />
359. Zintl F. 1988. Ausdauertraining - Grundlagen, Methoden, Trainingssteuerung. München<br />
133