Constitutive Modeling Of Mouse Arteries Suggests Changes In Directional Coupling And Extracellular Matrix Remodeling That Depend On Artery Type, Age, Sex And Elastin Amounts

Author:

Kailash Keshav1,Hawes Jie2,Cocciolone Austin1,Bersi Matthew R2,Mecham Robert P3,Wagenseil Jessica E.2

Affiliation:

1. Biomedical Engineering, Washington University, St. Louis, MO, USA

2. Mechanical Engineering and Materials Science, Washington University, St. Louis, MO, USA

3. Cell Biology and Physiology, Washington University, St. Louis, MO, USA

Abstract

Abstract Arterial stiffening occurs during natural aging, is associated with an increased risk of adverse cardiovascular events, and can follow different timelines in males and females. One mechanism of arterial stiffening includes remodeling of the extracellular matrix (ECM), which alters the wall material properties. We used elastin haploinsufficient (Eln+/-) and wildtype (Eln+/+) mice to investigate how material properties of two different arteries (ascending aorta and carotid artery) change with age, sex, and ECM composition. We used a constitutive model by Dong and Sun that is based on the Holzapfel-Gasser-Ogden type, but does not require a discrete number of fibrous ECM families and allows varied deformation coupling. We find that the amount of deformation coupling for the best fit model depends on the artery type. We also find that remodeling to maintain homeostatic (i.e. young, wildtype) values of biomechanical parameters with age, sex, and ECM composition depends on the artery type, with ascending aorta being more adaptable than carotid artery. Fitted material constants indicate sex-dependent remodeling that may be important for determining the time course of arterial stiffening in males and females. We correlated fitted material constants with ECM composition measured by biochemical (ascending aorta) or histological (carotid artery) methods. We show significant correlations between ECM composition and material parameters for the mean values for each group, with biochemical measurements correlating more strongly than histological measurements. Understanding how arterial stiffening depends on age, sex, ECM composition, and artery type may help design effective, personalized clinical treatment strategies.

Publisher

ASME International

Subject

Physiology (medical),Biomedical Engineering

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