Miss Stephanie Bezy

The change in propagation speed of natural shear waves by altering preload might differentiate patients with increased myocardial stiffness

Event: EACVI 2023

Topic: Tissue Doppler, Speckle Tracking and Strain Imaging

Session: ePosters

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Predictors of shear wave propagation speed assessed by shear wave elastography

Event: ESC Congress 2022

Topic: Tissue Doppler, Speckle Tracking and Strain Imaging

Session: Echocardiography: bench to bedside

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Systolic shear wave propagation speed as a novel non-invasive marker of myocardial contractility

Event: EuroEcho 2021

Topic: Systolic and Diastolic Function

Session: From bench to bedside: Promising novelties in cardiac ultrasound

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Myocardial stiffness assessed by shear wave elastography relates to pressure-volume loop derived measurements of chamber stiffness

Event: EuroEcho 2021

Topic: Systolic and Diastolic Function

Session: From bench to bedside: Promising novelties in cardiac ultrasound

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Myocardial stiffness assessed by natural shear wave elastography is related to pressure-volume loop derived parameters

Event: ESC Congress 2021 - The Digital Experience

Topic: Tissue Doppler, Speckle Tracking and Strain Imaging

Session: Congress committee e-posters choice in imaging

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The influence of hemodialysis-induced preload changes on the propagation speed of natural shear waves

Event: EACVI - Best of Imaging 2020

Topic: Tissue Doppler, Speckle Tracking and Strain Imaging

Session: ePoster session

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Natural shear wave propagation speed is influenced by both changes in myocardial structural properties as well as loading conditions

Event: EACVI - Best of Imaging 2020

Topic: Tissue Doppler, Speckle Tracking and Strain Imaging

Session: ePoster session

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The behaviour of natural shear waves under different loading conditions

Event: ESC Congress 2020

Topic: Tissue Doppler, Speckle Tracking and Strain Imaging

Session: Echocardiography ePosters

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Shear wave propagation velocity after aortic valve closure could be a novel parameter for myocardial contractility

Event: EuroEcho 2019

Topic: Systolic and Diastolic Function

Session: Systolic and diastolic function

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Miss Stephanie Bezy

Contributor content

The change in propagation speed of natural shear waves by altering preload might differentiate patients with increased myocardial stiffness

Predictors of shear wave propagation speed assessed by shear wave elastography

Systolic shear wave propagation speed as a novel non-invasive marker of myocardial contractility

Myocardial stiffness assessed by shear wave elastography relates to pressure-volume loop derived measurements of chamber stiffness

Myocardial stiffness assessed by natural shear wave elastography is related to pressure-volume loop derived parameters

The influence of hemodialysis-induced preload changes on the propagation speed of natural shear waves

Natural shear wave propagation speed is influenced by both changes in myocardial structural properties as well as loading conditions

The behaviour of natural shear waves under different loading conditions

Shear wave propagation velocity after aortic valve closure could be a novel parameter for myocardial contractility

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