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High Wall Shear Stress and Spatial Gradients in Vascular Pathology: A Review
by
Dolan, Jennifer M.
, Kolega, John
, Meng, Hui
in
Animals
/ Arteries - pathology
/ Arteries - physiopathology
/ Bifurcations
/ Biochemistry
/ Biological and Medical Physics
/ Biomechanics
/ Biomedical and Life Sciences
/ Biomedical Engineering and Bioengineering
/ Biomedicine
/ Biophysics
/ Classical Mechanics
/ Curvature
/ Destabilization
/ Endothelial Cells - pathology
/ Endothelial Cells - physiology
/ Humans
/ Pathology
/ Receiving
/ Remodeling
/ Shear stress
/ Sheds
/ Stress, Mechanical
/ Vascular Diseases - pathology
/ Vascular Diseases - physiopathology
/ Wall shear stresses
2013
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High Wall Shear Stress and Spatial Gradients in Vascular Pathology: A Review
by
Dolan, Jennifer M.
, Kolega, John
, Meng, Hui
in
Animals
/ Arteries - pathology
/ Arteries - physiopathology
/ Bifurcations
/ Biochemistry
/ Biological and Medical Physics
/ Biomechanics
/ Biomedical and Life Sciences
/ Biomedical Engineering and Bioengineering
/ Biomedicine
/ Biophysics
/ Classical Mechanics
/ Curvature
/ Destabilization
/ Endothelial Cells - pathology
/ Endothelial Cells - physiology
/ Humans
/ Pathology
/ Receiving
/ Remodeling
/ Shear stress
/ Sheds
/ Stress, Mechanical
/ Vascular Diseases - pathology
/ Vascular Diseases - physiopathology
/ Wall shear stresses
2013
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Do you wish to request the book?
High Wall Shear Stress and Spatial Gradients in Vascular Pathology: A Review
by
Dolan, Jennifer M.
, Kolega, John
, Meng, Hui
in
Animals
/ Arteries - pathology
/ Arteries - physiopathology
/ Bifurcations
/ Biochemistry
/ Biological and Medical Physics
/ Biomechanics
/ Biomedical and Life Sciences
/ Biomedical Engineering and Bioengineering
/ Biomedicine
/ Biophysics
/ Classical Mechanics
/ Curvature
/ Destabilization
/ Endothelial Cells - pathology
/ Endothelial Cells - physiology
/ Humans
/ Pathology
/ Receiving
/ Remodeling
/ Shear stress
/ Sheds
/ Stress, Mechanical
/ Vascular Diseases - pathology
/ Vascular Diseases - physiopathology
/ Wall shear stresses
2013
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High Wall Shear Stress and Spatial Gradients in Vascular Pathology: A Review
Journal Article
High Wall Shear Stress and Spatial Gradients in Vascular Pathology: A Review
2013
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Overview
Cardiovascular pathologies such as intracranial aneurysms (IAs) and atherosclerosis preferentially localize to bifurcations and curvatures where hemodynamics are complex. While extensive knowledge about low wall shear stress (WSS) has been generated in the past, due to its strong relevance to atherogenesis, high WSS (typically >3 Pa) has emerged as a key regulator of vascular biology and pathology as well, receiving renewed interests. As reviewed here, chronic high WSS not only stimulates adaptive outward remodeling, but also contributes to saccular IA formation (at bifurcation apices or outer curves) and atherosclerotic plaque destabilization (in stenosed vessels). Recent advances in understanding IA pathogenesis have shed new light on the role of high WSS in pathological vascular remodeling. In complex geometries, high WSS can couple with significant spatial WSS gradient (WSSG). A combination of high WSS and positive WSSG has been shown to trigger aneurysm initiation. Since endothelial cells (ECs) are sensors of WSS, we have begun to elucidate EC responses to high WSS alone and in combination with WSSG. Understanding such responses will provide insight into not only aneurysm formation, but also plaque destabilization and other vascular pathologies and potentially lead to improved strategies for disease management and novel targets for pharmacological intervention.
Publisher
Springer US,Springer Nature B.V
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