Title :
Pulsatile operation of the BiVACOR TAH — Motor design, control and hemodynamics
Author :
Kleinheyer, Matthias ; Timms, Daniel L. ; Greatrex, Nicholas A. ; Masuzawa, Toru ; Frazier, O. Howard ; Cohn, William E.
Author_Institution :
Texas Heart Inst., Houston, TX, USA
Abstract :
Although there is limited consensus about the strict requirement to deliver pulsatile perfusion to the human circulatory system, speed modulation of rotary blood pumps is an approach that may capture the benefits of both positive displacement and continuous flow blood pumps. In the current stage of development of the BiVACOR Total Artificial Heart emphasis is placed on providing pulsatile outflow from the pump. Multiple pulsatile speed profiles have been applied in preliminary in-vivo operation in order to assess the capability of the TAH to recreate a physiologic pulse. This paper provides an overview about recent research towards pulsatile BiVACOR operation with special emphasis on motor and control requirements and developments.
Keywords :
artificial organs; cardiovascular system; haemodynamics; pulsatile flow; BiVACOR TAH; BiVACOR Total Artificial Heart; continuous flow blood pumps; control requirements; hemodynamics; human circulatory system; motor design; motor developments; motor requirements; multiple pulsatile speed profiles; physiologic pulse; positive displacement; preliminary in-vivo operation; pulsatile BiVACOR operation; pulsatile outflow; pulsatile perfusion; rotary blood pumps; speed modulation; Heart; Hemodynamics; Permanent magnet motors; Physiology; Rotors; Stators; Torque;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2014 36th Annual International Conference of the IEEE
Conference_Location :
Chicago, IL
DOI :
10.1109/EMBC.2014.6944911
