Image-based biomechanics of collagen-based tissue equivalents

Image-based biomechanics of collagen-based tissue equivalents

In this study, we compared experimentally measured fiber network kinematics and the macroscopic mechanical response from cell-compacted, cross-shaped collagen gels (cruciforms), with the predictions from our multiscale modeling technique. The macroscopic finite element model matched the physical dim...

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Veröffentlicht in:Engineering in medicine & biology 2009-05, Vol.28 (3), p.10-18
Hauptverfasser: Sander, E.A., Stylianopoulos, T., Tranquillo, R.T., Barocas, V.H.
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biocompatible Materials - chemistry
Biomechanical Phenomena
Biomechanics
Biomedical Engineering
Bovine
Cattle
Fibrillar Collagens - chemistry
Fibrillar Collagens - physiology
Finite Element Analysis
Finite element methods
Gels
In Vitro Techniques
Kinematics
Mechanical variables measurement
Microscopy
Microstructure
Models, Biological
Optical fiber polarization
Optical fiber testing
Predictive models
Stress, Mechanical
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Zusammenfassung:In this study, we compared experimentally measured fiber network kinematics and the macroscopic mechanical response from cell-compacted, cross-shaped collagen gels (cruciforms), with the predictions from our multiscale modeling technique. The macroscopic finite element model matched the physical dimensions and boundary conditions of the experimental cruciform to be modeled. Different microscale network models were constructed for each finite element that matched fiber microstructure described by maps of the local direction and strength of alignment obtained from polarimetric alignment imaging. The outputs of the multiscale model included the macroscopic load-deformation response and the microscopic (fiber) kinematics.
ISSN:0739-5175
0278-0054
1937-4186
DOI:10.1109/MEMB.2009.932486