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contributor authorKristen L. Billiar
contributor authorMichael S. Sacks
date accessioned2017-05-09T00:01:51Z
date available2017-05-09T00:01:51Z
date copyrightAugust, 2000
date issued2000
identifier issn0148-0731
identifier otherJBENDY-25902#327_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/123348
description abstractWe have formulated the first constitutive model to describe the complete measured planar biaxial stress–strain relationship of the native and glutaraldehyde-treated aortic valve cusp using a structurally guided approach. When applied to native, zero-pressure fixed, and low-pressure fixed cusps, only three parameters were needed to simulate fully the highly anisotropic, and nonlinear in-plane biaxial mechanical behavior. Differences in the behavior of the native and zero- and low-pressure fixed cusps were found to be primarily due to changes in the effective fiber stress–strain behavior. Further, the model was able to account for the effects of small (<10 deg) misalignments in the cuspal specimens with respect to the biaxial test axes that increased the accuracy of the model material parameters. Although based upon a simplified cuspal structure, the model underscored the role of the angular orientation of the fibers that completely accounted for extreme mechanical anisotropy and pronounced axial coupling. Knowledge of the mechanics of the aortic cusp derived from this model may aid in the understanding of fatigue damage in bioprosthetic heart valves and, potentially, lay the groundwork for the design of tissue-engineered scaffolds for replacement heart valves. [S0148-0731(00)00504-5]
publisherThe American Society of Mechanical Engineers (ASME)
titleBiaxial Mechanical Properties of the Native and Glutaraldehyde-Treated Aortic Valve Cusp: Part II—A Structural Constitutive Model
typeJournal Paper
journal volume122
journal issue4
journal titleJournal of Biomechanical Engineering
identifier doi10.1115/1.1287158
journal fristpage327
journal lastpage335
identifier eissn1528-8951
keywordsFibers
keywordsStress
keywordsBiological tissues
keywordsConstitutive equations
keywordsValves
keywordsPressure
keywordsMechanical properties AND Deformation
treeJournal of Biomechanical Engineering:;2000:;volume( 122 ):;issue: 004
contenttypeFulltext


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