Ailyn Rivero scite author profile

Ailyn Rivero

2Publications

6Citation Statements Received

20Citation Statements Given

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Florida International University

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Protocol for Relative Hydrodynamic Assessment of Tri-leaflet Polymer Valves

Ramaswamy

Salinas

Carrol

et al. 2013

JoVE

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Limitations of currently available prosthetic valves, xenografts, and homografts have prompted a recent resurgence of developments in the area of tri-leaflet polymer valve prostheses. However, identification of a protocol for initial assessment of polymer valve hydrodynamic functionality is paramount during the early stages of the design process. Traditional in vitro pulse duplicator systems are not configured to accommodate flexible tri-leaflet materials; in addition, assessment of polymer valve functionality needs to be made in a relative context to native and prosthetic heart valves under identical test conditions so that variability in measurements from different instruments can be avoided. Accordingly, we conducted hydrodynamic assessment of i) native (n = 4, mean diameter, D = 20 mm), ii) bi-leaflet mechanical (n= 2, D = 23 mm) and iii) polymer valves (n = 5, D = 22 mm) via the use of a commercially available pulse duplicator system (ViVitro Labs Inc, Victoria, BC) that was modified to accommodate tri-leaflet valve geometries. Tri-leaflet silicone valves developed at the University of Florida comprised the polymer valve group. A mixture in the ratio of 35:65 glycerin to water was used to mimic blood physical properties. Instantaneous flow rate was measured at the interface of the left ventricle and aortic units while pressure was recorded at the ventricular and aortic positions. Bi-leaflet and native valve data from the literature was used to validate flow and pressure readings. The following hydrodynamic metrics were reported: forward flow pressure drop, aortic root mean square forward flow rate, aortic closing, leakage and regurgitant volume, transaortic closing, leakage, and total energy losses. Representative results indicated that hydrodynamic metrics from the three valve groups could be successfully obtained by incorporating a custom-built assembly into a commercially available pulse duplicator system and subsequently, objectively compared to provide insights on functional aspects of polymer valve design. Video LinkThe video component of this article can be found at

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PO-1632 3D-Printed template to perform in vivo dosimetry in breast high dose rate brachytherapy treatments

Ruiz¹,

Olalla²,

Rivero³

et al. 2021

Radiotherapy and Oncology

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Ailyn Rivero

Protocol for Relative Hydrodynamic Assessment of Tri-leaflet Polymer Valves

PO-1632 3D-Printed template to perform in vivo dosimetry in breast high dose rate brachytherapy treatments

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