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Untersuchte Arbeit: Seite: 5, Zeilen: 1-5 |
Quelle: Heil and Schaper 2004 Seite(n): 450, Zeilen: r. Spalte: 26ff |
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The equation that already includes blood viscosity (η) and the internal radius of a vessel (R), demonstrates that increased blood flow (Q) will directly result in increased FSS (τ)[9]. Furthermore, the wall of the collateral arteriole is influenced by pressure-related forces like longitudinal-, circumferential-, and radial wall stresses. 9. Heil, M. and W. Schaper, Influence of mechanical, cellular, and molecular factors on collateral artery growth (arteriogenesis). Circ Res, 2004. 95(5): p. 449-58. |
The equation that already includes blood viscosity (η) and the internal radius of a vessel (R), demonstrates that increased blood flow (Q) will directly result in increased FSS (τ).8 Furthermore, the wall of the collateral arteriole is influenced by pressure-related forces like longitudinal-, circumferential-, and radial wall stresses. 8. Cox R. Physiology and hemodynamics of the macrocirculation. In: Stehbens W, eds. Hemodynamics and the Blood Vessel Wall. Springfield, Ill: Charles C. Thomas; 1979:75–156. |
Die Quelle ist angegeben, aber der Umfang der Übernahme wird nicht deutlich. Die Übernahme beginnt schon auf der Vorseite: Haw/Fragment 004 25. |
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