Advances in Biological Tissue Biomechanics
Advanced experimental and computational biomechanics have become essential components to better understand the physiological and pathological conditions of biological tissues in the human body. Recent advances in medical imaging modalities, image segmentation, tissue characterization experiments, an...
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Physical Description: | 1 electronic resource (242 p.) |
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Lee, Chung-Hao edt Advances in Biological Tissue Biomechanics Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020 1 electronic resource (242 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Open access Unrestricted online access star Advanced experimental and computational biomechanics have become essential components to better understand the physiological and pathological conditions of biological tissues in the human body. Recent advances in medical imaging modalities, image segmentation, tissue characterization experiments, and predictive computer simulations have made major contributions to transforming current therapeutic paradigms, towards the facilitation of patient-specific diagnostics and individualized surgery planning. This Special Issue of Bioengineering on Advances in Biological Tissue Biomechanics, therefore, focuses on research dealing with cutting-edge experimental and computational methodologies for biomechanical investigations of tissues in the human body system across multiple spatial and temporal scales. English Research & information: general bicssc Biology, life sciences bicssc computational fluid dynamics bileaflet mechanical heart valve adverse hemodynamics transvalvular pressure gradients turbulent shear stresses blood damage platelet activation aortic valve calcification elastin degradation leaflet curvature biomarker early detection porcine brain mechanical behavior hydration effects Split-Hopkinson pressure bar micromechanics finite element analysis collagen crimp elastin microstructures force-controlled mechanical testing the tricuspid valve functional tricuspid regurgitation cardiovascular imaging mechanical characterization in-vitro experiments constitutive modeling geometrical modeling finite element modeling isogeometric analysis (IGA) biaxial mechanical characterization fluid-structure interactions material anisotropy sub-valvular components soft tissue liver high-rate compression polymeric split-Hopkinson pressure bar pentagalloyl glucose aneurysm enzyme biomechanics aorta biaxial mechanical testing cardiac valves osmotic swelling parameter estimation nonlinear preconditioning gradient-based minimization cirrus myocardium stiffness viscoelastic property anisotropy fibrosis the mitral valve collagen fiber architecture glycosaminoglycan uniaxial mechanical testing in-vitro flow loops polarized spatial frequency domain imaging tricuspid regurgitation spatial alignment collagen fiber reorientation in vivo stress/strain quantification constitutive models soft tissues growth and remodeling (G & R) multiscale biomechanics patient-specific modeling 3-03943-150-1 3-03943-151-X Liao, Jun edt Lee, Chung-Hao oth Liao, Jun oth |
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English |
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Liao, Jun Lee, Chung-Hao Liao, Jun |
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Liao, Jun Lee, Chung-Hao Liao, Jun |
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HerausgeberIn Sonstige Sonstige |
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Advances in Biological Tissue Biomechanics |
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Advances in Biological Tissue Biomechanics |
title_full |
Advances in Biological Tissue Biomechanics |
title_fullStr |
Advances in Biological Tissue Biomechanics |
title_full_unstemmed |
Advances in Biological Tissue Biomechanics |
title_auth |
Advances in Biological Tissue Biomechanics |
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Advances in Biological Tissue Biomechanics |
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advances in biological tissue biomechanics |
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MDPI - Multidisciplinary Digital Publishing Institute |
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2020 |
physical |
1 electronic resource (242 p.) |
isbn |
3-03943-150-1 3-03943-151-X |
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Not Illustrated |
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AT leechunghao advancesinbiologicaltissuebiomechanics AT liaojun advancesinbiologicaltissuebiomechanics |
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(CKB)5400000000041005 (oapen)https://directory.doabooks.org/handle/20.500.12854/69125 (EXLCZ)995400000000041005 |
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Advances in Biological Tissue Biomechanics |
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