Title :
Development of a microcontroller-based automatic control system for the electrohydraulic total artificial heart
Author :
Kim, Hee Chan ; Khanwilkar, Pratap S. ; Bearnson, Gill B. ; Olsen, Don B.
Author_Institution :
Artificial Heart Res. Lab., Seoul Nat. Univ., South Korea
Abstract :
An automatic physiological control system for the actively filled, alternately pumped ventricles of the volumetrically coupled, electrohydraulic total artificial heart (EHTAH) was developed for long-term use. The automatic control system must ensure that the device: (1) maintains a physiological response of cardiac output, (2) compensates for any nonphysiological condition, and (3) is stable, reliable, and operates at a high power efficiency. The developed automatic control system met these requirements both in vitro, in week-long continuous mock circulation tests, and in vivo, in acute open-chested animals (calves). Satisfactory results were also obtained in a series of chronic animal experiments, including 21 days of continuous operation of the fully automatic control mode, and 138 days of operation in a manual mode, in a 159-day calf implant.
Keywords :
artificial organs; biocontrol; biomedical electronics; cardiology; microcontrollers; 7 to 159 d; actively filled alternately pumped ventricles; acute open-chested animals; calves; cardiac output; continuous mock circulation tests; electrohydraulic total artificial heart; long-term use; microcontroller-based automatic control system; nonphysiological condition compensation; physiological response; Animals; Artificial heart; Automatic control; Automatic testing; Control systems; Electrohydraulics; In vitro; Maintenance; Power system reliability; System testing; Algorithms; Animals; Cattle; Electronics, Medical; Equipment Design; Evaluation Studies as Topic; Heart, Artificial; Humans; Microcomputers; Software Design; Time Factors; Transducers, Pressure;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
