Back to Search Start Over

Optimizing the Porohyperelastic Response of a Layered Compliance Matched Vascular Graft to Promote Luminal Self-Cleaning.

Authors :
Behrangzade A
Simon BR
Wagner WR
Geest JPV
Source :
Journal of biomechanical engineering [J Biomech Eng] 2023 Feb 01; Vol. 145 (2).
Publication Year :
2023

Abstract

Thrombosis and intimal hyperplasia have remained the major failure mechanisms of small-diameter vascular grafts used in bypass procedures. While most efforts to reduce thrombogenicity have used a biochemical surface modification approach, the use of local mechanical phenomena to aid in this goal has received somewhat less attention. In this work, the mechanical, fluid transport, and geometrical properties of a layered and porous vascular graft are optimized within a porohyperelastic finite element framework to maximize self-cleaning via luminal reversal fluid velocity (into the lumen). This is expected to repel platelets as well as inhibit the formation of and/or destabilize adsorbed protein layers thereby reducing thrombogenic potential. A particle swarm optimization algorithm was utilized to maximize luminal reversal fluid velocity while also compliance matching our graft to a target artery (rat aorta). The maximum achievable luminal reversal fluid velocity was approximately 246 μm/s without simultaneously optimizing for host compliance. Simultaneous optimization of reversal flow and compliance resulted in a luminal reversal fluid velocity of 59 μm/s. Results indicate that a thick highly permeable compressible inner layer and a thin low permeability incompressible outer layer promote intraluminal reversal fluid velocity. Future research is needed to determine the feasibility of fabricating such a layered and optimized graft and verify its ability to improve hemocompatibility.<br /> (Copyright © 2023 by ASME.)

Details

Language :
English
ISSN :
1528-8951
Volume :
145
Issue :
2
Database :
MEDLINE
Journal :
Journal of biomechanical engineering
Publication Type :
Academic Journal
Accession number :
36082481
Full Text :
https://doi.org/10.1115/1.4055563