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Platelet Dynamics and Hemodynamics of Cerebral Aneurysms Treated with Flow-Diverting Stents
Platelet Dynamics and Hemodynamics of Cerebral Aneurysms Treated with Flow-Diverting Stents
by Barbour, Michael C , Chassagne, Fanette , Aliseda, Alberto , Venkat Keshav Chivukula , Marsh, Laurel M M , Kelly, Cory M , Levy, Samuel H , Levitt, Michael R , Kim, Louis J
in Aneurysm / Aneurysms / Biomechanics / Blood clots / Cardiovascular system / Computational fluid dynamics / Computer applications / Fluid flow / Fluid mechanics / Hemodynamics / Implants / Mechanical stimuli / Platelets / Residence time distribution / Shear stress / Stents / Thrombosis
2020
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Platelet Dynamics and Hemodynamics of Cerebral Aneurysms Treated with Flow-Diverting Stents
by Barbour, Michael C , Chassagne, Fanette , Aliseda, Alberto , Venkat Keshav Chivukula , Marsh, Laurel M M , Kelly, Cory M , Levy, Samuel H , Levitt, Michael R , Kim, Louis J
in Aneurysm / Aneurysms / Biomechanics / Blood clots / Cardiovascular system / Computational fluid dynamics / Computer applications / Fluid flow / Fluid mechanics / Hemodynamics / Implants / Mechanical stimuli / Platelets / Residence time distribution / Shear stress / Stents / Thrombosis
2020
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Platelet Dynamics and Hemodynamics of Cerebral Aneurysms Treated with Flow-Diverting Stents
Platelet Dynamics and Hemodynamics of Cerebral Aneurysms Treated with Flow-Diverting Stents
by Barbour, Michael C , Chassagne, Fanette , Aliseda, Alberto , Venkat Keshav Chivukula , Marsh, Laurel M M , Kelly, Cory M , Levy, Samuel H , Levitt, Michael R , Kim, Louis J
in Aneurysm / Aneurysms / Biomechanics / Blood clots / Cardiovascular system / Computational fluid dynamics / Computer applications / Fluid flow / Fluid mechanics / Hemodynamics / Implants / Mechanical stimuli / Platelets / Residence time distribution / Shear stress / Stents / Thrombosis
2020

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Platelet Dynamics and Hemodynamics of Cerebral Aneurysms Treated with Flow-Diverting Stents
Platelet Dynamics and Hemodynamics of Cerebral Aneurysms Treated with Flow-Diverting Stents
Journal Article

Platelet Dynamics and Hemodynamics of Cerebral Aneurysms Treated with Flow-Diverting Stents

Barbour, Michael C,
Chassagne, Fanette,
Aliseda, Alberto,
Venkat Keshav Chivukula,
Marsh, Laurel M M,
Kelly, Cory M,
Levy, Samuel H,
Levitt, Michael R,
Kim, Louis J
2020
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Overview
Flow-diverting stents (FDS) are used to treat cerebral aneurysms. They promote the formation of a stable thrombus within the aneurysmal sac and, if successful, isolate the aneurysmal dome from mechanical stresses to prevent rupture. Platelet activation, a mechanism necessary for thrombus formation, is known to respond to biomechanical stimuli, particularly to the platelets’ residence time and shear stress exposure. Currently, there is no reliable method for predicting FDS treatment outcomes, either a priori or after the procedure. Eulerian computational fluid dynamic (CFD) studies of aneurysmal flow have searched for predictors of endovascular treatment outcome; however, the hemodynamics of thrombus formation cannot be fully understood without considering the platelets’ trajectories and their mechanics-triggered activation. Lagrangian analysis of the fluid mechanics in the aneurysmal vasculature provides novel metrics by tracking the platelets’ residence time (RT) and shear history (SH). Eulerian and Lagrangian parameters are compared for 19 patient-specific cases, both pre- and post-treatment, to assess the degree of change caused by the FDS and subsequent treatment efficacy.
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Publisher
Springer Nature B.V
Subject

Aneurysm

/ Aneurysms

/ Biomechanics

/ Blood clots

/ Cardiovascular system

/ Computational fluid dynamics

/ Computer applications

/ Fluid flow

/ Fluid mechanics

/ Hemodynamics

/ Implants

/ Mechanical stimuli

/ Platelets

/ Residence time distribution

/ Shear stress

/ Stents

/ Thrombosis

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