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Article type: Research Article
Authors: Langille, B. Lowell
Affiliations: Department of Physiology, University of Western Ontario, London, Ontario N6A 5C1, Canada
Note: [] Accepted by Editor H.L. Goldsmith
Abstract: Shear-induced injury or denudation of arterial endothelium has been implicated in atherogenesis. This study reports on an in vitro technique for imposing high, controlled shear stresses on endothelium. Samples of dog aorta were mounted in a chamber so that the endothelium was 1 mm ± 0.03 mm from a rotating disc. The chamber was filled with a high viscosity solution (10% polyvinyl pyrrolidone in Tyrode’s solution, viscosity = 1.97 ± .07 Poise) which was sheared over the endothelium by the disc. A servo amplifier drove the motor that rotated the disc, so that motor RPM (therefore shear stress) could be made to follow either steady or pulsatile signals played into the amplifier. Acute (10 min – 1 hr) exposure to steady shear stresses of up to 2000 dyne/cm2 did not cause gross endothelial injury or denudation. Exposure of endothelium to pulsatile shear stresses that followed a tape recording of physiological flow waveforms (electromagnetic flowmeter) did not cause gross injury or denudation even when peak shear exceeded 1500 dyne/cm2. Furthermore exposure to high shear stress did not degrade the non-thrombogenic nature of the endothelium because subsequent platelet adhesion was poorly and negatively correlated with shear stress.
Keywords: atherogenesis, response to injury hypothesis, hemodynamics
DOI: 10.3233/BIR-1984-21304
Journal: Biorheology, vol. 21, no. 3, pp. 333-346, 1984
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