Building a Functional Artery: Issues from the Perspective of Mechanics

Overview

Journal Front Biosci

Specialty Biology

Date 2004 Sep 9

PMID 15353269

Citations 6

Authors

Rudolph L Gleason

Jin-Jia Hu

Jay D Humphrey

Affiliations

Soon will be listed here.

Abstract

Despite the many successes of arterial tissue engineering, clinically viable implants may be a decade or more away. Fortunately, there is much more that we can learn from native vessels with regard to designing for optimal structure, function, and properties. Herein, we examine recent observations in vascular biology from the perspective of nonlinear mechanics. Moreover, we use a constrained mixture model to study potential contributions of individual wall constituents. In both cases, the unique biological and mechanical roles of elastin come to the forefront, especially its role in generating and modulating residual stress within the wall, which appears to be key to multiple growth and remodeling responses.

Citing Articles

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Ding X, Zhang W, Xu P, Feng W, Tang X, Yang X Research (Wash D C). 2022; 2022:9825237.

PMID: 36474603 PMC: 9703915. DOI: 10.34133/2022/9825237.

Fabricating mechanically improved silk-based vascular grafts by solution control of the gel-spinning process.

Rodriguez M, Kluge J, Smoot D, Kluge M, Schmidt D, Paetsch C Biomaterials. 2019; 230:119567.

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Dysfunction in elastic fiber formation in fibulin-5 null mice abrogates the evolution in mechanical response of carotid arteries during maturation.

Wan W, Gleason Jr R Am J Physiol Heart Circ Physiol. 2012; 304(5):H674-86.

PMID: 23241326 PMC: 3602758. DOI: 10.1152/ajpheart.00459.2012.

Hydrostatic pressure independently increases elastin and collagen co-expression in small-diameter engineered arterial constructs.

Crapo P, Wang Y J Biomed Mater Res A. 2011; 96(4):673-81.

PMID: 21268239 PMC: 3043763. DOI: 10.1002/jbm.a.33019.

A 3-D constrained mixture model for mechanically mediated vascular growth and remodeling.

Wan W, Hansen L, Gleason Jr R Biomech Model Mechanobiol. 2009; 9(4):403-19.

PMID: 20039091 PMC: 2902632. DOI: 10.1007/s10237-009-0184-z.