Predicting cell viability within tissue scaffolds under equiaxial strain: multi-scale finite element model of collagen–cardiomyocytes constructs-Reference-Cited by-同舟云学术

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Predicting cell viability within tissue scaffolds under equiaxial strain: multi-scale finite element model of collagen–cardiomyocytes constructs

Published:2017-01-16 Issue:3 Volume:16 Page:1049-1063
ISSN:1617-7959
Container-title:Biomechanics and Modeling in Mechanobiology
language:en
Short-container-title:Biomech Model Mechanobiol

Author:

Elsaadany Mostafa^ORCID,Yan Karen Chang^ORCID,Yildirim-Ayan Eda^ORCID

Publisher

Springer Science and Business Media LLC

Subject

Mechanical Engineering,Modeling and Simulation,Biotechnology

Link

http://link.springer.com/article/10.1007/s10237-017-0872-z/fulltext.html

Reference79 articles.

1. Abhilash AS et al (2014) Remodeling of fibrous extracellular matrices by contractile cells: predictions from discrete fiber network simulations. Biophys J 107(8):1829–1840

2. Aghvami M, Barocas VH, Sander EA (2013) Multiscale mechanical simulations of cell compacted collagen gels. J Biomech Eng 135(7):071004

3. Ahmadzadeh H et al (2015) Micromechanical poroelastic finite element and shear-lag models of tendon predict large strain dependent Poisson’s ratios and fluid expulsion under tensile loading. Acta Biomater 22:83–91

4. Altman G et al (2002) Cell differentiation by mechanical stress. Faseb J 16(2):270–272

5. Asnes CF et al (2006) Reconstitution of the Frank–Starling mechanism in engineered heart tissues. Biophys J 91(5):1800–1810

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