Impacts of waveforms on the fluid flow, wall shear stress, and flow distribution in cerebral aneurysms and the development of a universal reduced pressure

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Journal of Biomedical Science and Engineering

ISSN Print: 1937-6871
ISSN Online: 1937-688X
www.scirp.org/journal/jbise
E-mail: jbise@scirp.org

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"Impacts of waveforms on the fluid flow, wall shear stress, and flow distribution in cerebral aneurysms and the development of a universal reduced pressure"
written by Noel M. Naughton, Brian D. Plourde, John R. Stark, Simona Hodis, John P. Abraham,
published by Journal of Biomedical Science and Engineering, Vol.7 No.1, 2014

has been cited by the following article(s):

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[1]	Structural design and mechanical performance of composite vascular grafts
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[2]	Effects of waveform shape of pulsatile blood flow on hemodynamics in an artery bifurcation model
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[3]	A non-dimensional parameter for classification of the flow in intracranial aneurysms. II. Patient-specific geometries
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[4]	A non-dimensional parameter for classification of the flow in intracranial aneurysms. I. Simplified geometries
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[5]	Computational analysis of blood flow and wall mechanics in a model of early atherosclerotic artery
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[6]	Numerical simulation of pulse wave propagation in a curved artery
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[7]	Numerical simulations of cardiovascular flows
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[8]	Analysis of non-Newtonian effects within an aorta-iliac bifurcation region
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[9]	On Thermal Factor and MHD Mixed Convective Oscillatory Blood Flow in a Bifurcating Artery
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[10]	A Blood Flow Model of a Bifurcating Artery
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[11]	Computed tomographic coronary angiography combined computational fluid dynamics demonstrates the hemodynamic changes of a pathologic condition Vieussens' …
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[12]	Computed tomographic coronary angiography combined computational fluid dynamics demonstrates the hemodynamic changes of a pathologic condition …
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[13]	Computed tomographic coronary angiography combined computational fluid dynamics demonstrates the hemodynamic changes of a pathologic condition Vieussens' …
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[14]	Alterations of Blood Flow Through Arteries Following Atherectomy and the Impact on Pressure Variation and Velocity
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[15]	Effects of Reynolds and Womersley numbers on the hemodynamics of intracranial aneurysms
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[16]	Computational Analysis of Anastomotic Angles by Blood Flow Conditions in Side-to-End Radio-Cephalic Fistulae Used in Hemodialysis
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[17]	A Computational Model for Biomechanical Effects of Arterial Compliance Mismatch
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[18]	Influence of Supporting Tissue on the Deformation and Compliance of Healthy and Diseased Arteries
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[19]	Caracterização do fluxo sanguíneo duma bifurcação da artéria carótida com estenose
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[20]	Low-Density Lipoprotein Transport through an Arterial Wall under Hyperthermia and Hypertension Conditions–An Analytical Solution
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[21]	The Effect of Plaque Removal on Pressure Drop and Flow Rate through an Idealized Stenotic Lesion
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[22]	Strategy for analysis of flow diverting devices based on multi‐modality image‐based modeling
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[23]	Artery Length Sensitivity in Patient-Specific Cerebral Aneurysm Simulations
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[24]	Numerical evaluation of blood viscosity affecting pulse wave propagation in a fluid-structure interaction model
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[1]	Structural design and mechanical performance of composite vascular grafts Bio-Design and Manufacturing, 2022 DOI:10.1007/s42242-022-00201-7

[2]	Effects of waveform shape of pulsatile blood flow on hemodynamics in an artery bifurcation model Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2021 DOI:10.1177/0954406220911397

[3]	A non-dimensional parameter for classification of the flow in intracranial aneurysms. II. Patient-specific geometries Physics of Fluids, 2019 DOI:10.1063/1.5081451

[4]	A non-dimensional parameter for classification of the flow in intracranial aneurysms. I. Simplified geometries Physics of Fluids, 2019 DOI:10.1063/1.5033942

[5]	A non-dimensional parameter for classification of the flow in intracranial aneurysms. II. Patient-specific geometries Physics of Fluids, 2019 DOI:10.1063/1.5081451

[6]	A non-dimensional parameter for classification of the flow in intracranial aneurysms. I. Simplified geometries Physics of Fluids, 2019 DOI:10.1063/1.5033942

[7]	A non-dimensional parameter for classification of the flow in intracranial aneurysms. II. Patient-specific geometries Physics of Fluids, 2019 DOI:10.1063/1.5081451

[8]	A non-dimensional parameter for classification of the flow in intracranial aneurysms. I. Simplified geometries Physics of Fluids, 2019 DOI:10.1063/1.5033942

[9]	Analysis of non-Newtonian effects within an aorta-iliac bifurcation region Journal of Biomechanics, 2017 DOI:10.1016/j.jbiomech.2017.09.042

[10]	Computational analysis of blood flow and wall mechanics in a model of early atherosclerotic artery Journal of Mechanical Science and Technology, 2017 DOI:10.1007/s12206-017-0154-9

[11]	Low-density lipoprotein transport through an arterial wall under hyperthermia and hypertension conditions – An analytical solution Journal of Biomechanics, 2016 DOI:10.1016/j.jbiomech.2015.12.015

[12]	Alterations of Blood Flow Through Arteries Following Atherectomy and the Impact on Pressure Variation and Velocity Cardiovascular Engineering and Technology, 2016 DOI:10.1007/s13239-016-0269-7

[13]	Computed tomographic coronary angiography combined computational fluid dynamics demonstrates the hemodynamic changes of a pathologic condition Vieussens' arterial ring International Journal of Cardiology, 2016 DOI:10.1016/j.ijcard.2016.08.139

[14]	Effects of Reynolds and Womersley Numbers on the Hemodynamics of Intracranial Aneurysms Computational and Mathematical Methods in Medicine, 2016 DOI:10.1155/2016/7412926

[15]	A New Catheter Technology to Deliver Vascular Stem-Cells Studies on Stem Cells Research and Therapy, 2016 DOI:10.17352/sscrt.000007

[16]	Artery Length Sensitivity in Patient-Specific Cerebral Aneurysm Simulations American Journal of Neuroradiology, 2015 DOI:10.3174/ajnr.A4179

[17]	Numerical evaluation of blood viscosity affecting pulse wave propagation in a fluid-structure interaction model Biomedical Engineering / Biomedizinische Technik, 2015 DOI:10.1515/bmt-2014-0083

[18]	Computational Analysis of Anastomotic Angles by Blood Flow Conditions in Side-to-End Radio-Cephalic Fistulae Used in Hemodialysis Journal of Biomedical Science and Engineering, 2015 DOI:10.4236/jbise.2015.83013

[19]	A Computational Model for Biomechanical Effects of Arterial Compliance Mismatch Applied Bionics and Biomechanics, 2015 DOI:10.1155/2015/213236

[20]	Influence of Supporting Tissue on the Deformation and Compliance of Healthy and Diseased Arteries Journal of Biomedical Science and Engineering, 2015 DOI:10.4236/jbise.2015.88046

[21]	Strategy for analysis of flow diverting devices based on multi‐modality image‐based modeling International Journal for Numerical Methods in Biomedical Engineering, 2014 DOI:10.1002/cnm.2638

[22]	Strategy for analysis of flow diverting devices based on multi-modality image-based modeling International Journal for Numerical Methods in Biomedical Engineering, 2014 DOI:10.1002/cnm.2638

Follow SCIRP

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	customer@scirp.org
	+86 18163351462(WhatsApp)
	1655362766

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