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Development of Inspired Therapeutics Pediatric VAD: Computational Analysis and Characterization of VAD V3.

Authors :
Tompkins, Landon H.
Gellman, Barry N.
Prina, Steven R.
Morello, Gino F.
Roussel, Thomas
Kopechek, Jonathan A.
Williams, Stuart J.
Petit, Priscilla C.
Slaughter, Mark S.
Koenig, Steven C.
Dasse, Kurt A.
Source :
Cardiovascular Engineering & Technology; Aug2022, Vol. 13 Issue 4, p624-637, 14p
Publication Year :
2022

Abstract

Purpose: Pediatric heart failure patients remain in critical need of a dedicated mechanical circulatory support (MCS) solution as development efforts for specific pediatric devices continue to fall behind those for the adult population. The Inspired Pediatric VAD is being developed as a pediatric specific MCS solution to provide up to 30-days of circulatory or respiratory support in a compact modular package that could allow for patient ambulation during treatment. Methods: Hydrodynamic performance (flows, pressures), impeller/rotor mechanical properties (torques, forces), and flow shear stress and residence time distributions of the latest design version, Inspired Pediatric VAD V3, were numerically predicted and investigated using computational fluid dynamics (CFD) software (SolidWorks Flow Simulator). Results: Hydrodynamic performance was numerically predicted, indicating no change in flow and pressure head compared to the previous device design (V2), while displaying increased impeller/rotor torques and translation forces enabled by improved geometry. Shear stress and flow residence time volumetric distributions are presented over a range of pump rotational speeds and flow rates. At the lowest pump operating point (3000 RPM, 0.50 L/min, 75 mmHg), 79% of the pump volume was in the shear stress range of 0–10 Pa with < 1% of the volume in the critical range of 150–1000 Pa for blood damage. At higher speed and flow (5000 RPM, 3.50 L/min, 176 mmHg), 65% of the volume resided in the 0–10 Pa range compared to 2.3% at 150–1000 Pa. Conclusions: The initial computational characterization of the Inspired Pediatric VAD V3 is encouraging and future work will include device prototype testing in a mock circulatory loop and acute large animal model. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
1869408X
Volume :
13
Issue :
4
Database :
Complementary Index
Journal :
Cardiovascular Engineering & Technology
Publication Type :
Academic Journal
Accession number :
159263362
Full Text :
https://doi.org/10.1007/s13239-021-00602-2