Fundamentals and Applications of Fluid Mechanics and Acoustics in Biomedical Engineering

The field of biomedical engineering has experienced important advances in experimental, computational, and analytical research in fluid mechanics and acoustics. New imaging modalities, advanced instrumentation, and efficient computational methodologies have enabled these advances. Computational tool...

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Udgivet: MDPI - Multidisciplinary Digital Publishing Institute 2025
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_version_ 1869528910413168640
collection Directory of Open Access Books
description The field of biomedical engineering has experienced important advances in experimental, computational, and analytical research in fluid mechanics and acoustics. New imaging modalities, advanced instrumentation, and efficient computational methodologies have enabled these advances. Computational tools are leveraging progress in modern engineering techniques and mathematical tools. The findings contribute to a better understanding of physiological processes in the circulatory and respiratory systems, as well as phonation, and have already led to new therapies. These transformative achievements include the early diagnosis of diseases, the monitoring of their progression, individualized interventions, surgical planning, effective drug delivery, and new medical devices. Synergy between computational tools and experimental diagnostics is important for the development of both approaches. Accurate experimental data are crucial for the validation of computational fluid dynamics (CFD) to obtain reliable results. CFD can help in designing the experimental setup and to provide a deeper understanding of experimental results, adding information that cannot be measured.
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institution Directory of Open Access Books
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publishDate 2025
publishDateRange 2025
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1530482025-02-20T13:28:52Z Fundamentals and Applications of Fluid Mechanics and Acoustics in Biomedical Engineering Little, Iris Gutmark, Ephraim physiological pulsatile flow vortical structures wall shear stresses healthy and pre-disposed geometry cardiovascular disease synthetic vocal fold models integrated fibers biomimetic larynx model physiological vocal fold dynamics blood speckle imaging aortic valve repair aortic stenosis flow separation vortices vocal fold intraglottal negative pressure machine learning segmentation 4D-PCMRI aortic valve disease bicuspid aortic valve commissural angle fluid–structure interaction magnetic resonance thoracic aorta flow rheological models for blood effects of blood viscosity obstructive sleep apnea fluid-structure interaction soft palate 3D simplified model human phonation source–filter interaction particle image velocimetry synthetic larynx model transmission line model aeroacoustic source computation voice production fluid-structure-acoustic interaction mechanical-acoustical eigenvalue simulation vocal fold motion finite element model platelet activation snoring vibration fluid–structure interactions shear stress aspirin anisotropic electrical conductivity electrical conductivity of blood computational fluid dynamics bioimpedance signals impedance cardiography impedance plethysmography computational rhinology computational fluid dynamics (CFD) large eddy simulation (LES) nasal airflow nasal resistance rhinomanometry (RMM) turbulence n/a thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBD Medical profession::MBDC Medical ethics and professional conduct The field of biomedical engineering has experienced important advances in experimental, computational, and analytical research in fluid mechanics and acoustics. New imaging modalities, advanced instrumentation, and efficient computational methodologies have enabled these advances. Computational tools are leveraging progress in modern engineering techniques and mathematical tools. The findings contribute to a better understanding of physiological processes in the circulatory and respiratory systems, as well as phonation, and have already led to new therapies. These transformative achievements include the early diagnosis of diseases, the monitoring of their progression, individualized interventions, surgical planning, effective drug delivery, and new medical devices. Synergy between computational tools and experimental diagnostics is important for the development of both approaches. Accurate experimental data are crucial for the validation of computational fluid dynamics (CFD) to obtain reliable results. CFD can help in designing the experimental setup and to provide a deeper understanding of experimental results, adding information that cannot be measured. 2025-02-20T13:28:50Z 2025-02-20T13:28:50Z 2025 book ONIX_20250220_9783725827480_412 9783725827480 9783725827473 https://directory.doabooks.org/handle/20.500.12854/153048 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/pdfview/book/10422 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-2747-3 10.3390/books978-3-7258-2747-3 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725827480 9783725827473 312 Basel open access
spellingShingle physiological pulsatile flow
vortical structures
wall shear stresses
healthy and pre-disposed geometry
cardiovascular disease
synthetic vocal fold models
integrated fibers
biomimetic larynx model
physiological vocal fold dynamics
blood speckle imaging
aortic valve repair
aortic stenosis
flow separation vortices
vocal fold
intraglottal negative pressure
machine learning segmentation
4D-PCMRI
aortic valve disease
bicuspid aortic valve
commissural angle
fluid–structure interaction
magnetic resonance
thoracic aorta flow
rheological models for blood
effects of blood viscosity
obstructive sleep apnea
fluid-structure interaction
soft palate
3D simplified model
human phonation
source–filter interaction
particle image velocimetry
synthetic larynx model
transmission line model
aeroacoustic source computation
voice production
fluid-structure-acoustic interaction
mechanical-acoustical eigenvalue simulation
vocal fold motion
finite element model
platelet activation
snoring
vibration
fluid–structure interactions
shear stress
aspirin
anisotropic electrical conductivity
electrical conductivity of blood
computational fluid dynamics
bioimpedance signals
impedance cardiography
impedance plethysmography
computational rhinology
computational fluid dynamics (CFD)
large eddy simulation (LES)
nasal airflow
nasal resistance
rhinomanometry (RMM)
turbulence
n/a
thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBD Medical profession::MBDC Medical ethics and professional conduct
Fundamentals and Applications of Fluid Mechanics and Acoustics in Biomedical Engineering
title Fundamentals and Applications of Fluid Mechanics and Acoustics in Biomedical Engineering
title_full Fundamentals and Applications of Fluid Mechanics and Acoustics in Biomedical Engineering
title_fullStr Fundamentals and Applications of Fluid Mechanics and Acoustics in Biomedical Engineering
title_full_unstemmed Fundamentals and Applications of Fluid Mechanics and Acoustics in Biomedical Engineering
title_short Fundamentals and Applications of Fluid Mechanics and Acoustics in Biomedical Engineering
title_sort fundamentals and applications of fluid mechanics and acoustics in biomedical engineering
topic physiological pulsatile flow
vortical structures
wall shear stresses
healthy and pre-disposed geometry
cardiovascular disease
synthetic vocal fold models
integrated fibers
biomimetic larynx model
physiological vocal fold dynamics
blood speckle imaging
aortic valve repair
aortic stenosis
flow separation vortices
vocal fold
intraglottal negative pressure
machine learning segmentation
4D-PCMRI
aortic valve disease
bicuspid aortic valve
commissural angle
fluid–structure interaction
magnetic resonance
thoracic aorta flow
rheological models for blood
effects of blood viscosity
obstructive sleep apnea
fluid-structure interaction
soft palate
3D simplified model
human phonation
source–filter interaction
particle image velocimetry
synthetic larynx model
transmission line model
aeroacoustic source computation
voice production
fluid-structure-acoustic interaction
mechanical-acoustical eigenvalue simulation
vocal fold motion
finite element model
platelet activation
snoring
vibration
fluid–structure interactions
shear stress
aspirin
anisotropic electrical conductivity
electrical conductivity of blood
computational fluid dynamics
bioimpedance signals
impedance cardiography
impedance plethysmography
computational rhinology
computational fluid dynamics (CFD)
large eddy simulation (LES)
nasal airflow
nasal resistance
rhinomanometry (RMM)
turbulence
n/a
thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBD Medical profession::MBDC Medical ethics and professional conduct
topic_facet physiological pulsatile flow
vortical structures
wall shear stresses
healthy and pre-disposed geometry
cardiovascular disease
synthetic vocal fold models
integrated fibers
biomimetic larynx model
physiological vocal fold dynamics
blood speckle imaging
aortic valve repair
aortic stenosis
flow separation vortices
vocal fold
intraglottal negative pressure
machine learning segmentation
4D-PCMRI
aortic valve disease
bicuspid aortic valve
commissural angle
fluid–structure interaction
magnetic resonance
thoracic aorta flow
rheological models for blood
effects of blood viscosity
obstructive sleep apnea
fluid-structure interaction
soft palate
3D simplified model
human phonation
source–filter interaction
particle image velocimetry
synthetic larynx model
transmission line model
aeroacoustic source computation
voice production
fluid-structure-acoustic interaction
mechanical-acoustical eigenvalue simulation
vocal fold motion
finite element model
platelet activation
snoring
vibration
fluid–structure interactions
shear stress
aspirin
anisotropic electrical conductivity
electrical conductivity of blood
computational fluid dynamics
bioimpedance signals
impedance cardiography
impedance plethysmography
computational rhinology
computational fluid dynamics (CFD)
large eddy simulation (LES)
nasal airflow
nasal resistance
rhinomanometry (RMM)
turbulence
n/a
thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBD Medical profession::MBDC Medical ethics and professional conduct
url ONIX_20250220_9783725827480_412