Biomechanical Study and Analysis for Cardiovascular/Skeletal Materials and Devices

Biomedical materials are a promising solution to overcoming tissue and organ failure in the cardiovascular and skeletal systems. In recent decades, there has been incredible progress made in regard to the repair, remodelling, and regeneration of tissues such as vasculature, heart valves, joint, cart...

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collection Directory of Open Access Books
description Biomedical materials are a promising solution to overcoming tissue and organ failure in the cardiovascular and skeletal systems. In recent decades, there has been incredible progress made in regard to the repair, remodelling, and regeneration of tissues such as vasculature, heart valves, joint, cartilage, cornea, retina, etc. There is a great need for novel therapeutic options in treating numerous cardiovascular/skeletal diseases related to tissue failure. Biomechanical studies and analyses of cardiovascular/skeletal materials and devices are critical areas of examination in regard to creating solution strategies for related clinical concerns. The aim of this Reprint is to demonstrate state-of-the-art biomechanical studies and analyses of cardiovascular/skeletal materials, devices, and their applications. Its scope includes—but is not limited to—fundamental studies of related materials, structures, devices and application issues.
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institution Directory of Open Access Books
language eng
publishDate 2024
publishDateRange 2024
publishDateSort 2024
publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1438122024-09-06T08:31:03Z Biomechanical Study and Analysis for Cardiovascular/Skeletal Materials and Devices Qiao, Aike Yang, Haisheng Mu, Yongliang mineralized collagen microstructure physical characterization chemical characterization coronary angioscopy flush conditions CFD two-phase flow dextran injection flow chamber endothelial cells coculture techniques microfluidics lab-on-a-chip aspirin anti-inflammation amorphous calcium phosphate composite scaffold dental pulp-capping material dental pulp stem cell bone regeneration hydrogels mechanical properties polyvinyl alcohol tannic acid finite element updating approach arterial material properties in vivo material parameters estimation medical degradation porous zinc protein foaming elasticity modulus compressive strength biodegradable vascular stents continuum damage mechanics finite element method non-uniform degradation Zinc-based biodegradable materials orthopedic implant biodegradability mechanical property biocompatibility interstitial fluid (ISF) microflow perivascular and adventitial clearance neurovascular bundles accompanying vein accompanying artery kinematic law nitinol polydioxanone self-expanding occluder braided wire occluder finite element analysis (FEA) mechanical performance diabetes mellitus erythrocyte retinal vessel fluid–structure interaction lingering time coronary vulnerable plaque coronary plaque models multilayer vessel geometry hemodynamic geometric features side holes catheter shear stress thyroid biomechanics constitutive model hyperelasticity 3D printing silicone phantom CT scanning aortic dissection interlayer adhesion damage cellular reprogramming cell transdifferentiation direct cellular lineage-conversion tissue engineered vascular grafts vascular regeneration stem cells vascular progenitor cells smooth muscle cells atherosclerosis cardiovascular disease coronary vulnerable plaque plaque models fibrous cap thickness vulnerable plaque model plaque vulnerability prediction bone biomaterial collagen mineralization bone cement cobalt–chrome alloy Exeter stem periprosthetic femoral fractures polished tapered stem fluid–structure interaction (FSI) polymeric heart valves (PHVs) thickness strain stress angioplasty balloon dilatation catheter finite element analysis bench test insertion force balloon pleating simulation n/a thema EDItEUR::P Mathematics and Science thema EDItEUR::P Mathematics and Science::PN Chemistry thema EDItEUR::P Mathematics and Science::PN Chemistry::PNF Analytical chemistry Biomedical materials are a promising solution to overcoming tissue and organ failure in the cardiovascular and skeletal systems. In recent decades, there has been incredible progress made in regard to the repair, remodelling, and regeneration of tissues such as vasculature, heart valves, joint, cartilage, cornea, retina, etc. There is a great need for novel therapeutic options in treating numerous cardiovascular/skeletal diseases related to tissue failure. Biomechanical studies and analyses of cardiovascular/skeletal materials and devices are critical areas of examination in regard to creating solution strategies for related clinical concerns. The aim of this Reprint is to demonstrate state-of-the-art biomechanical studies and analyses of cardiovascular/skeletal materials, devices, and their applications. Its scope includes—but is not limited to—fundamental studies of related materials, structures, devices and application issues. 2024-09-06T08:30:57Z 2024-09-06T08:30:57Z 2024 book ONIX_20240906_9783725816699_174 9783725816699 9783725816705 https://directory.doabooks.org/handle/20.500.12854/143812 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/9559 https://mdpi.com/books/pdfview/book/9559 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-1670-5 10.3390/books978-3-7258-1670-5 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725816699 9783725816705 open access
spellingShingle mineralized collagen
microstructure
physical characterization
chemical characterization
coronary angioscopy
flush conditions
CFD
two-phase flow
dextran injection
flow chamber
endothelial cells
coculture techniques
microfluidics
lab-on-a-chip
aspirin
anti-inflammation
amorphous calcium phosphate composite scaffold
dental pulp-capping material
dental pulp stem cell
bone regeneration
hydrogels
mechanical properties
polyvinyl alcohol
tannic acid
finite element updating approach
arterial material properties
in vivo
material parameters estimation
medical degradation
porous zinc
protein foaming
elasticity modulus
compressive strength
biodegradable vascular stents
continuum damage mechanics
finite element method
non-uniform degradation
Zinc-based biodegradable materials
orthopedic implant
biodegradability
mechanical property
biocompatibility
interstitial fluid (ISF)
microflow
perivascular and adventitial clearance
neurovascular bundles
accompanying vein
accompanying artery
kinematic law
nitinol
polydioxanone
self-expanding occluder
braided wire occluder
finite element analysis (FEA)
mechanical performance
diabetes mellitus erythrocyte
retinal vessel
fluid–structure interaction
lingering time
coronary
vulnerable plaque
coronary plaque models
multilayer vessel geometry
hemodynamic
geometric features
side holes
catheter
shear stress
thyroid
biomechanics
constitutive model
hyperelasticity
3D printing
silicone phantom
CT scanning
aortic dissection
interlayer adhesion damage
cellular reprogramming
cell transdifferentiation
direct cellular lineage-conversion
tissue engineered vascular grafts
vascular regeneration
stem cells
vascular progenitor cells
smooth muscle cells
atherosclerosis
cardiovascular disease
coronary vulnerable plaque
plaque models
fibrous cap thickness
vulnerable plaque model
plaque vulnerability prediction
bone
biomaterial
collagen
mineralization
bone cement
cobalt–chrome alloy
Exeter stem
periprosthetic femoral fractures
polished tapered stem
fluid–structure interaction (FSI)
polymeric heart valves (PHVs)
thickness
strain
stress
angioplasty
balloon dilatation catheter
finite element analysis
bench test
insertion force
balloon pleating simulation
n/a
thema EDItEUR::P Mathematics and Science
thema EDItEUR::P Mathematics and Science::PN Chemistry
thema EDItEUR::P Mathematics and Science::PN Chemistry::PNF Analytical chemistry
Biomechanical Study and Analysis for Cardiovascular/Skeletal Materials and Devices
title Biomechanical Study and Analysis for Cardiovascular/Skeletal Materials and Devices
title_full Biomechanical Study and Analysis for Cardiovascular/Skeletal Materials and Devices
title_fullStr Biomechanical Study and Analysis for Cardiovascular/Skeletal Materials and Devices
title_full_unstemmed Biomechanical Study and Analysis for Cardiovascular/Skeletal Materials and Devices
title_short Biomechanical Study and Analysis for Cardiovascular/Skeletal Materials and Devices
title_sort biomechanical study and analysis for cardiovascular skeletal materials and devices
topic mineralized collagen
microstructure
physical characterization
chemical characterization
coronary angioscopy
flush conditions
CFD
two-phase flow
dextran injection
flow chamber
endothelial cells
coculture techniques
microfluidics
lab-on-a-chip
aspirin
anti-inflammation
amorphous calcium phosphate composite scaffold
dental pulp-capping material
dental pulp stem cell
bone regeneration
hydrogels
mechanical properties
polyvinyl alcohol
tannic acid
finite element updating approach
arterial material properties
in vivo
material parameters estimation
medical degradation
porous zinc
protein foaming
elasticity modulus
compressive strength
biodegradable vascular stents
continuum damage mechanics
finite element method
non-uniform degradation
Zinc-based biodegradable materials
orthopedic implant
biodegradability
mechanical property
biocompatibility
interstitial fluid (ISF)
microflow
perivascular and adventitial clearance
neurovascular bundles
accompanying vein
accompanying artery
kinematic law
nitinol
polydioxanone
self-expanding occluder
braided wire occluder
finite element analysis (FEA)
mechanical performance
diabetes mellitus erythrocyte
retinal vessel
fluid–structure interaction
lingering time
coronary
vulnerable plaque
coronary plaque models
multilayer vessel geometry
hemodynamic
geometric features
side holes
catheter
shear stress
thyroid
biomechanics
constitutive model
hyperelasticity
3D printing
silicone phantom
CT scanning
aortic dissection
interlayer adhesion damage
cellular reprogramming
cell transdifferentiation
direct cellular lineage-conversion
tissue engineered vascular grafts
vascular regeneration
stem cells
vascular progenitor cells
smooth muscle cells
atherosclerosis
cardiovascular disease
coronary vulnerable plaque
plaque models
fibrous cap thickness
vulnerable plaque model
plaque vulnerability prediction
bone
biomaterial
collagen
mineralization
bone cement
cobalt–chrome alloy
Exeter stem
periprosthetic femoral fractures
polished tapered stem
fluid–structure interaction (FSI)
polymeric heart valves (PHVs)
thickness
strain
stress
angioplasty
balloon dilatation catheter
finite element analysis
bench test
insertion force
balloon pleating simulation
n/a
thema EDItEUR::P Mathematics and Science
thema EDItEUR::P Mathematics and Science::PN Chemistry
thema EDItEUR::P Mathematics and Science::PN Chemistry::PNF Analytical chemistry
topic_facet mineralized collagen
microstructure
physical characterization
chemical characterization
coronary angioscopy
flush conditions
CFD
two-phase flow
dextran injection
flow chamber
endothelial cells
coculture techniques
microfluidics
lab-on-a-chip
aspirin
anti-inflammation
amorphous calcium phosphate composite scaffold
dental pulp-capping material
dental pulp stem cell
bone regeneration
hydrogels
mechanical properties
polyvinyl alcohol
tannic acid
finite element updating approach
arterial material properties
in vivo
material parameters estimation
medical degradation
porous zinc
protein foaming
elasticity modulus
compressive strength
biodegradable vascular stents
continuum damage mechanics
finite element method
non-uniform degradation
Zinc-based biodegradable materials
orthopedic implant
biodegradability
mechanical property
biocompatibility
interstitial fluid (ISF)
microflow
perivascular and adventitial clearance
neurovascular bundles
accompanying vein
accompanying artery
kinematic law
nitinol
polydioxanone
self-expanding occluder
braided wire occluder
finite element analysis (FEA)
mechanical performance
diabetes mellitus erythrocyte
retinal vessel
fluid–structure interaction
lingering time
coronary
vulnerable plaque
coronary plaque models
multilayer vessel geometry
hemodynamic
geometric features
side holes
catheter
shear stress
thyroid
biomechanics
constitutive model
hyperelasticity
3D printing
silicone phantom
CT scanning
aortic dissection
interlayer adhesion damage
cellular reprogramming
cell transdifferentiation
direct cellular lineage-conversion
tissue engineered vascular grafts
vascular regeneration
stem cells
vascular progenitor cells
smooth muscle cells
atherosclerosis
cardiovascular disease
coronary vulnerable plaque
plaque models
fibrous cap thickness
vulnerable plaque model
plaque vulnerability prediction
bone
biomaterial
collagen
mineralization
bone cement
cobalt–chrome alloy
Exeter stem
periprosthetic femoral fractures
polished tapered stem
fluid–structure interaction (FSI)
polymeric heart valves (PHVs)
thickness
strain
stress
angioplasty
balloon dilatation catheter
finite element analysis
bench test
insertion force
balloon pleating simulation
n/a
thema EDItEUR::P Mathematics and Science
thema EDItEUR::P Mathematics and Science::PN Chemistry
thema EDItEUR::P Mathematics and Science::PN Chemistry::PNF Analytical chemistry
url ONIX_20240906_9783725816699_174