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Synchronized Pulsatile Speed Control of Turbodynamic Left Ventricular Assist Devices: Review and Prospects
Author(s) -
Amacher Raffael,
Ochsner Gregor,
Schmid Daners Marianne
Publication year - 2014
Publication title -
artificial organs
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.684
H-Index - 76
eISSN - 1525-1594
pISSN - 0160-564X
DOI - 10.1111/aor.12253
Subject(s) - pulsatile flow , rotational speed , arterial tree , square wave , sine wave , hemodynamics , pulse wave analysis , cardiac cycle , biomedical engineering , pulse (music) , blood pressure , computer science , pulse wave velocity , cardiology , medicine , physics , telecommunications , quantum mechanics , voltage , detector
Turbodynamic blood pumps are used clinically as ventricular assist devices ( VADs ). They are mostly operated at a constant rotational speed, which results in a reduced pulsatility. Previous research has analyzed pulsing pump speeds (speed modulation) to alter the interaction between the cardiovascular system and the blood pump. In those studies, sine‐ or square‐wave speed profiles that were synchronized to the natural cardiac cycle were analyzed in silico, in vitro and in vivo. The definitions of these profiles with respect to both timing and speed levels vary among different research groups. The current paper provides a definition of the timing of these speed profiles such that the resulting hemodynamic effects become comparable. The results published in the literature are summarized and compared using this definition. Further, applied to a turbodynamic VAD , a series of measurements is conducted on a hybrid mock circulation using a constant speed as well as different types of square‐wave speed profiles and a sine‐wave speed profile. When a consistent definition of the timing of the speed profiles is used, the hemodynamic effects observed in previous work are in agreement with the measurement data obtained for the current paper. These findings allow the conclusion that the speed modulation of turbodynamic VADs represents a consistent tool to systematically change the ventricular load and the pulsatility in the arterial tree. The timing that yields the minimal left ventricular load also yields the minimal arterial pulse pressure.

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