Numerical Simulation in Biomechanics and Biomedical Engineering

In the first contribution, Morbiducci and co-workers discuss the theoretical and methodological bases supporting the Lagrangian- and Euler-based methods, highlighting their application to cardiovascular flows. The second contribution, by the Ansón and van Lenthe groups, proposes an automated virtual...

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description In the first contribution, Morbiducci and co-workers discuss the theoretical and methodological bases supporting the Lagrangian- and Euler-based methods, highlighting their application to cardiovascular flows. The second contribution, by the Ansón and van Lenthe groups, proposes an automated virtual bench test for evaluating the stability of custom shoulder implants without the necessity of mechanical testing. Urdeitx and Doweidar, in the third paper, also adopt the finite element method for developing a computational model aim to study cardiac cell behavior under mechano-electric stimulation. In the fourth contribution, Ayensa-Jiménez et al. develop a methodology to approximate the multidimensional probability density function of the parametric analysis obtained developing a mathematical model of the cancer evolution. The fifth paper is oriented to the topological data analysis; the group of Cueto and Chinesta designs a predictive model capable of estimating the state of drivers using the data collected from motion sensors. In the sixth contribution, the Ohayon and Finet group uses wall shear stress-derived descriptors to study the role of recirculation in the arterial restenosis due to different malapposed and overlapping stent conditions. In the seventh contribution, the research group of Antón demonstrates that the simulation time can be reduced for cardiovascular numerical analysis considering an adequate geometry-reduction strategy applicable to truncated patient specific artery. In the eighth paper, Grasa and Calvo present a numerical model based on the finite element method for simulating extraocular muscle dynamics. The ninth paper, authored by Kahla et al., presents a mathematical mechano-pharmaco-biological model for bone remodeling. Martínez, Peña, and co-workers propose in the tenth paper a methodology to calibrate the dissection properties of aorta layer, with the aim of providing useful information for reliable numerical tools. In the eleventh contribution, Martínez-Bocanegra et al. present the structural behavior of a foot model using a detailed finite element model. The twelfth contribution is centered on the methodology to perform a finite, element-based, numerical model of a hydroxyapatite 3D printed bone scaffold. In the thirteenth paper, Talygin and Gorodkov present analytical expressions describing swirling jets for cardiovascular applications. In the fourteenth contribution, Schenkel and Halliday propose a novel non-Newtonian particle transport model for red blood cells. Finally, Zurita et al. propose a parametric numerical tool for analyzing a silicone customized 3D printable trachea-bronchial prosthesis.
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spelling doab-20.500.12854ir-771172024-04-09T23:15:50Z Numerical Simulation in Biomechanics and Biomedical Engineering Malvè, Mauro finite element analysis shoulder implant stability implant design reverse shoulder arthroplasty micromotion in-silico 3D model cardiac cell cardiac muscle tissue cardiomyocyte electrical stimulation copulas design of experiments glioblastoma multiforme mathematical modelling Morse theory topological data analysis machine learning time series smart driving fixed points manifolds divergence hemodynamics computational fluid dynamics overlap malapposition stent stenosis thrombosis radioembolization liver cancer hepatic artery computational cost analysis personalized medicine patient specific finite element method implicit FEM explicit FEM skeletal muscle biomechanics mathematical model cell dynamics bone physiology bone disorders aortic dissection delamination tests cohesive zone model porcine aorta vascular mechanics foot finite element method foot and ankle model shared nodes separated mesh plantar pressure finite element modelling bone tissue engineering 3D scaffold additive manufacturing potential swirling flow Navier–Stokes equations unsteady swirling flow tornado-like jets haemorheology blood flow modelling particle transport numerical fluid mechanics tracheobronchial stent parametric model 3D printing customized prosthesis thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues In the first contribution, Morbiducci and co-workers discuss the theoretical and methodological bases supporting the Lagrangian- and Euler-based methods, highlighting their application to cardiovascular flows. The second contribution, by the Ansón and van Lenthe groups, proposes an automated virtual bench test for evaluating the stability of custom shoulder implants without the necessity of mechanical testing. Urdeitx and Doweidar, in the third paper, also adopt the finite element method for developing a computational model aim to study cardiac cell behavior under mechano-electric stimulation. In the fourth contribution, Ayensa-Jiménez et al. develop a methodology to approximate the multidimensional probability density function of the parametric analysis obtained developing a mathematical model of the cancer evolution. The fifth paper is oriented to the topological data analysis; the group of Cueto and Chinesta designs a predictive model capable of estimating the state of drivers using the data collected from motion sensors. In the sixth contribution, the Ohayon and Finet group uses wall shear stress-derived descriptors to study the role of recirculation in the arterial restenosis due to different malapposed and overlapping stent conditions. In the seventh contribution, the research group of Antón demonstrates that the simulation time can be reduced for cardiovascular numerical analysis considering an adequate geometry-reduction strategy applicable to truncated patient specific artery. In the eighth paper, Grasa and Calvo present a numerical model based on the finite element method for simulating extraocular muscle dynamics. The ninth paper, authored by Kahla et al., presents a mathematical mechano-pharmaco-biological model for bone remodeling. Martínez, Peña, and co-workers propose in the tenth paper a methodology to calibrate the dissection properties of aorta layer, with the aim of providing useful information for reliable numerical tools. In the eleventh contribution, Martínez-Bocanegra et al. present the structural behavior of a foot model using a detailed finite element model. The twelfth contribution is centered on the methodology to perform a finite, element-based, numerical model of a hydroxyapatite 3D printed bone scaffold. In the thirteenth paper, Talygin and Gorodkov present analytical expressions describing swirling jets for cardiovascular applications. In the fourteenth contribution, Schenkel and Halliday propose a novel non-Newtonian particle transport model for red blood cells. Finally, Zurita et al. propose a parametric numerical tool for analyzing a silicone customized 3D printable trachea-bronchial prosthesis. 2022-01-11T13:52:46Z 2022-01-11T13:52:46Z 2021 book ONIX_20220111_9783036522111_949 9783036522111 9783036522128 https://directory.doabooks.org/handle/20.500.12854/77117 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/4736 https://mdpi.com/books/pdfview/book/4736 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-2212-8 10.3390/books978-3-0365-2212-8 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036522111 9783036522128 300 Basel, Switzerland open access
spellingShingle finite element analysis
shoulder implant stability
implant design
reverse shoulder arthroplasty
micromotion
in-silico
3D model
cardiac cell
cardiac muscle tissue
cardiomyocyte
electrical stimulation
copulas
design of experiments
glioblastoma multiforme
mathematical modelling
Morse theory
topological data analysis
machine learning
time series
smart driving
fixed points
manifolds
divergence
hemodynamics
computational fluid dynamics
overlap
malapposition
stent
stenosis
thrombosis
radioembolization
liver cancer
hepatic artery
computational cost analysis
personalized medicine
patient specific
finite element method
implicit FEM
explicit FEM
skeletal muscle
biomechanics
mathematical model
cell dynamics
bone physiology
bone disorders
aortic dissection
delamination tests
cohesive zone model
porcine aorta
vascular mechanics
foot finite element method
foot and ankle model
shared nodes
separated mesh
plantar pressure
finite element modelling
bone tissue engineering
3D scaffold
additive manufacturing
potential swirling flow
Navier–Stokes equations
unsteady swirling flow
tornado-like jets
haemorheology
blood flow modelling
particle transport
numerical fluid mechanics
tracheobronchial stent
parametric model
3D printing
customized prosthesis
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
Numerical Simulation in Biomechanics and Biomedical Engineering
title Numerical Simulation in Biomechanics and Biomedical Engineering
title_full Numerical Simulation in Biomechanics and Biomedical Engineering
title_fullStr Numerical Simulation in Biomechanics and Biomedical Engineering
title_full_unstemmed Numerical Simulation in Biomechanics and Biomedical Engineering
title_short Numerical Simulation in Biomechanics and Biomedical Engineering
title_sort numerical simulation in biomechanics and biomedical engineering
topic finite element analysis
shoulder implant stability
implant design
reverse shoulder arthroplasty
micromotion
in-silico
3D model
cardiac cell
cardiac muscle tissue
cardiomyocyte
electrical stimulation
copulas
design of experiments
glioblastoma multiforme
mathematical modelling
Morse theory
topological data analysis
machine learning
time series
smart driving
fixed points
manifolds
divergence
hemodynamics
computational fluid dynamics
overlap
malapposition
stent
stenosis
thrombosis
radioembolization
liver cancer
hepatic artery
computational cost analysis
personalized medicine
patient specific
finite element method
implicit FEM
explicit FEM
skeletal muscle
biomechanics
mathematical model
cell dynamics
bone physiology
bone disorders
aortic dissection
delamination tests
cohesive zone model
porcine aorta
vascular mechanics
foot finite element method
foot and ankle model
shared nodes
separated mesh
plantar pressure
finite element modelling
bone tissue engineering
3D scaffold
additive manufacturing
potential swirling flow
Navier–Stokes equations
unsteady swirling flow
tornado-like jets
haemorheology
blood flow modelling
particle transport
numerical fluid mechanics
tracheobronchial stent
parametric model
3D printing
customized prosthesis
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet finite element analysis
shoulder implant stability
implant design
reverse shoulder arthroplasty
micromotion
in-silico
3D model
cardiac cell
cardiac muscle tissue
cardiomyocyte
electrical stimulation
copulas
design of experiments
glioblastoma multiforme
mathematical modelling
Morse theory
topological data analysis
machine learning
time series
smart driving
fixed points
manifolds
divergence
hemodynamics
computational fluid dynamics
overlap
malapposition
stent
stenosis
thrombosis
radioembolization
liver cancer
hepatic artery
computational cost analysis
personalized medicine
patient specific
finite element method
implicit FEM
explicit FEM
skeletal muscle
biomechanics
mathematical model
cell dynamics
bone physiology
bone disorders
aortic dissection
delamination tests
cohesive zone model
porcine aorta
vascular mechanics
foot finite element method
foot and ankle model
shared nodes
separated mesh
plantar pressure
finite element modelling
bone tissue engineering
3D scaffold
additive manufacturing
potential swirling flow
Navier–Stokes equations
unsteady swirling flow
tornado-like jets
haemorheology
blood flow modelling
particle transport
numerical fluid mechanics
tracheobronchial stent
parametric model
3D printing
customized prosthesis
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url ONIX_20220111_9783036522111_949