1. Appropriate control time constant in relation to characteristics of the baroreflex vascular system in 1/R control of the total artificial heart
- Author
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Toshiya Ono, Sora Mizuta, Terumi Yurimoto, Haruka Murakami, Takashi Isoyama, Shintaro Hara, Itsuro Saito, Yusuke Abe, Xinyang Li, and Kunihiko Mabuchi
- Subjects
0206 medical engineering ,Biomedical Engineering ,Medicine (miscellaneous) ,Vasomotion ,02 engineering and technology ,Heart, Artificial ,030204 cardiovascular system & hematology ,Baroreflex ,law.invention ,Biomaterials ,03 medical and health sciences ,symbols.namesake ,0302 clinical medicine ,Control theory ,law ,Heart Rate ,Heart rate ,medicine ,Animals ,Very low frequency ,Mathematics ,Heart Failure ,Frequency analysis ,Goats ,Time constant ,020601 biomedical engineering ,Disease Models, Animal ,medicine.anatomical_structure ,Fourier transform ,Carotid Arteries ,Vascular resistance ,symbols ,Vascular Resistance ,Cardiology and Cardiovascular Medicine - Abstract
1/R control is a physiological control method of the total artificial heart (TAH) with which long-term survival was obtained with animal experiments. However, 1/R control occasionally diverged in the undulation pump TAH (UPTAH) animal experiment. To improve the control stability of the 1/R control, appropriate control time constant in relation to characteristics of the baroreflex vascular system was investigated with frequency analysis and numerical simulation. In the frequency analysis, data of five goats in which the UPTAH was implanted were analyzed with first Fourier transform technique to examine the vasomotion frequency. The numerical simulation was carried out repeatedly changing baroreflex parameters and control time constant using the elements-expanded Windkessel model. Results of the frequency analysis showed that the 1/R control tended to diverge when very low frequency band that was an indication of the vasomotion frequency was relative high. In numerical simulation, divergence of the 1/R control could be reproduced and the boundary curves between the divergence and convergence of the 1/R control varied depending on the control time constant. These results suggested that the 1/R control tended to be unstable when the TAH recipient had high reflex speed in the baroreflex vascular system. Therefore, the control time constant should be adjusted appropriately with the individual vasomotion frequency.
- Published
- 2016