A nonpulsatile total artificial heart with 1/R control

• Published in: Journal of artificial organs Vol. 11; no. 4; pp. 191 - 200
• Main Authors: Abe, Yusuke, Saito, Itsuro, Isoyama, Takashi, Miura, Hidekazu, Shi, Wei, Yamaguchi, Sachiko, Inoue, Yusuke, Nakagawa, Hidemoto, Ono, Minoru, Kishi, Ayumi, Ono, Toshiya, Kouno, Akimasa, Chinzei, Tsuneo, Imachi, Kou
• Format: Journal Article
• Language: English
• Published: Japan Springer Japan 01.12.2008; Springer Nature B.V
• Subjects: Animals; Biomedical Engineering and Bioengineering; Blood Cell Count; Cardiac Output; Cardiac Surgery; Control charts; Female; Goats; Heart, Artificial; Heuristic; Medicine; Medicine & Public Health; Nephrology; Original Article; Pulsatile Flow; Studies; Nonpulsatile; 1/R control; Total artificial heart; Undulation pump; Fluctuation
• ISSN: 1434-7229; 1619-0904
• DOI: 10.1007/s10047-008-0434-3

A total artificial heart (TAH) using continuous flow pumps is promising for size reduction of the device; however, the role of pulsatility in TAHs has been a subject of great debate. Additionally, it is unclear whether, in a nonpulsatile TAH, a physiological control method such as 1/R control can keep the experimental animal in good condition. To realize a nonpulsatile TAH with 1/R control, the artificial valves were removed from undulation pump total artificial hearts (UPTAHs), which can produce both pulsatile and nonpulsatile flows using a single device. The UPTAHs were implanted into 18 goats, and 4 goats survived for more than 1 month. Three weeks of long-term nonpulsatile TAH operation could be tested in the goat that survived for 72 days, and it was proved that 1/R control is possible not only with a pulsatile TAH but also with a nonpulsatile TAH. The general condition of the goat and its organ function did not change on the application of nonpulsatile mode. Cardiac output and arterial pressure changed with the condition of the goat in pulsatile and also in nonpulsatile modes, and the changes seemed almost identical. However, the sucking effect of the atria was very significant in nonpulsatile mode, resulting in hemolysis. Therefore, nonpulsatile TAHs under 1/R control are considered to be inadequate unless some pulsatility can be introduced to avoid fatal sucking effects and to ensure sufficient inflow. During nonpulsatile operation, regular fluctuations were sometimes found in the aortic pressure, and these were caused by the periodic sucking effect in the left atrium that was possibly influenced by respiratory changes.