Velocity and shear stress distributions downstream of a jellyfish valve in a model of natural aortic root

Ali A. Sakhaeimanesh; Yos S. Morsi

doi:10.1117/12.300832

19 January 1998 Velocity and shear stress distributions downstream of a jellyfish valve in a model of natural aortic root

Ali A. Sakhaeimanesh, Yos S. Morsi

Author Affiliations +

Proceedings Volume 3193, Photothermal Therapies in Medicine; (1998) https://doi.org/10.1117/12.300832
Event: BiOS Europe '97, 1997, San Remo, Italy

Abstract

Under steady flow conditions experiments were conducted to examine the fluid flow regime through a Jellyfish valve inserted into an aortic chamber with sinuses of Valsalva. The diagnostic Laser Doppler Anemometry (LDA) technique was used to determine the instantaneous velocity fields including shear stress distributions downstream of the valve. Maximum turbulent shear stresses were found to be 85 and 277 N/m² at 0.5 D downstream of the valve under flow rates of 15 and 26 l/min respectively. This values are critical to lethal erythrocyte and platelet damages. Furthermore flow reversal was observed at a location 0.5 D downstream under flow rate of 15 l/min. This may also encourage thrombus formation.

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Ali A. Sakhaeimanesh and Yos S. Morsi "Velocity and shear stress distributions downstream of a jellyfish valve in a model of natural aortic root", Proc. SPIE 3193, Photothermal Therapies in Medicine, (19 January 1998); https://doi.org/10.1117/12.300832

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