The effects of recirculation flows on mass transfer from the arterial wall to flowing blood

ASAIO Journal : a Peer-reviewed Journal of the American Society for Artificial Internal Organs
Zhiguo ZhangR Guidoin

Abstract

Using a sudden tubular expansion as a model of an arterial stenosis, the effect of disturbed flow on mass transfer from the arterial wall to flowing blood was studied theoretically and tested experimentally by measuring the dissolution rate of benzoic acid disks forming the outer tube of a sudden tubular expansion. The study revealed that mass transfer from vessel wall to flowing fluid in regions of disturbed flow is independent of wall shear rates. The rate of mass transfer is significantly higher in regions of disturbed flow with a local maximum around the reattachment point where the wall shear rate is zero. The experimental study also revealed that the rate of mass transfer from the vessel wall to a flowing fluid is much higher in the presence of microspheres (as models of blood cells) in the flowing fluid and under the condition of pulsatile flow than in steady flow. These results imply that flow disturbance may enhance the transport of biochemicals and macromolecules, such as plasma proteins and lipoproteins synthesized within the blood vessel wall, from the blood vessel wall to flowing blood.

Citations

Nov 3, 2010·Cardiovascular Research·Jean-Baptiste MichelUNKNOWN FAD EU consortium
Mar 19, 2011·Science China. Life Sciences·ZhiGuo Zhang, XiWen Zhang
Oct 17, 2016·Journal of Vascular Surgery·Erik Groot JebbinkMichel M P J Reijnen

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