Morphological approach for the functional improvement of an artificial myocardial assist device using shape memory alloy fibres

Y. Shiraishi; T. Yambe; Y. Saijo; F. Sato; A. Tanaka; M. Yoshizawa; D. Ogawa; Y. Wada; S. Itoh; R. Sakata; Y. Park; M. Uematsu; M. Umezu; T. Fujimoto; N. Masumoto; H. Liu; A. Baba; S. Konno; S. Nitta; K. Imachi; K. Tabayashi; H. Sasada; D. Homma

doi:10.1109/IEMBS.2007.4353204

Morphological approach for the functional improvement of an artificial myocardial assist device using shape memory alloy fibres

Y. Shiraishi^*, T. Yambe, Y. Saijo, F. Sato, A. Tanaka, M. Yoshizawa, D. Ogawa, Y. Wada, S. Itoh, R. Sakata, Y. Park, M. Uematsu, M. Umezu, T. Fujimoto, N. Masumoto, H. Liu, A. Baba, S. Konno, S. Nitta, K. ImachiK. Tabayashi, H. Sasada, D. Homma

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

11 Citations (Scopus)

Abstract

The authors have been developing a mechano-electric artificial myocardial assist system (artificial myocardium) which is capable of supporting natural contractile functions from the outside of the ventricle without blood contacting surface. In this study, a nano-tech covalent type shape memory alloy fibre (Biometal, Toki Corp, Japan) was employed and the parallel-link structured myocardial assist device was developed. And basic characteristics of the system were examined in a mechanical circulatory system as well as in animal experiments using goats. The contractile functions were evaluated with the mock circulatory system that simulated systemic circulation with a silicone left ventricular model and an aortic afterload. Hemodynamic performance was also examined in goats. Prior to the measurement, the artificial myocardial assist device was installed into the goat's thoracic cavity and attached onto the ventricular wall. As a result, the system could be installed successfully without severe complications related to the heating, and the aortic flow rate was increased by 15% and the systolic left ventricular pressure was elevated by 7% under the cardiac output condition of 3L/min in a goat. And those values were elevated by the improvement of the design which was capable of the natural morphological myocardial tissue streamlines. Therefore it was indicated that the effective assistance might be achieved by the contraction by the newly-designed artificial myocardial assist system using Biometal. Moreover it was suggested that the assistance gain might be obtained by the optimised configuration design along with the natural anatomical myocardial stream line.

Original language	English
Title of host publication	29th Annual International Conference of IEEE-EMBS, Engineering in Medicine and Biology Society, EMBC'07
Pages	3974-3977
Number of pages	4
DOIs	https://doi.org/10.1109/IEMBS.2007.4353204
Publication status	Published - 2007
Externally published	Yes
Event	29th Annual International Conference of IEEE-EMBS, Engineering in Medicine and Biology Society, EMBC'07 - Lyon, France Duration: 2007 Aug 23 → 2007 Aug 26

Publication series

Name	Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings
ISSN (Print)	0589-1019

Conference

Conference	29th Annual International Conference of IEEE-EMBS, Engineering in Medicine and Biology Society, EMBC'07
Country/Territory	France
City	Lyon
Period	07/8/23 → 07/8/26

ASJC Scopus subject areas

Signal Processing
Biomedical Engineering
Computer Vision and Pattern Recognition
Health Informatics

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10.1109/IEMBS.2007.4353204

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Shiraishi, Y., Yambe, T., Saijo, Y., Sato, F., Tanaka, A., Yoshizawa, M., Ogawa, D., Wada, Y., Itoh, S., Sakata, R., Park, Y., Uematsu, M., Umezu, M., Fujimoto, T., Masumoto, N., Liu, H., Baba, A., Konno, S., Nitta, S., ... Homma, D. (2007). Morphological approach for the functional improvement of an artificial myocardial assist device using shape memory alloy fibres. In 29th Annual International Conference of IEEE-EMBS, Engineering in Medicine and Biology Society, EMBC'07 (pp. 3974-3977). Article 4353204 (Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings). https://doi.org/10.1109/IEMBS.2007.4353204

Morphological approach for the functional improvement of an artificial myocardial assist device using shape memory alloy fibres. / Shiraishi, Y.; Yambe, T.; Saijo, Y. et al.
29th Annual International Conference of IEEE-EMBS, Engineering in Medicine and Biology Society, EMBC'07. 2007. p. 3974-3977 4353204 (Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Shiraishi, Y, Yambe, T, Saijo, Y, Sato, F, Tanaka, A, Yoshizawa, M, Ogawa, D, Wada, Y, Itoh, S, Sakata, R, Park, Y, Uematsu, M, Umezu, M, Fujimoto, T, Masumoto, N, Liu, H, Baba, A, Konno, S, Nitta, S, Imachi, K, Tabayashi, K, Sasada, H & Homma, D 2007, Morphological approach for the functional improvement of an artificial myocardial assist device using shape memory alloy fibres. in 29th Annual International Conference of IEEE-EMBS, Engineering in Medicine and Biology Society, EMBC'07., 4353204, Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings, pp. 3974-3977, 29th Annual International Conference of IEEE-EMBS, Engineering in Medicine and Biology Society, EMBC'07, Lyon, France, 07/8/23. https://doi.org/10.1109/IEMBS.2007.4353204

Shiraishi Y, Yambe T, Saijo Y, Sato F, Tanaka A, Yoshizawa M et al. Morphological approach for the functional improvement of an artificial myocardial assist device using shape memory alloy fibres. In 29th Annual International Conference of IEEE-EMBS, Engineering in Medicine and Biology Society, EMBC'07. 2007. p. 3974-3977. 4353204. (Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings). doi: 10.1109/IEMBS.2007.4353204

Shiraishi, Y. ; Yambe, T. ; Saijo, Y. et al. / Morphological approach for the functional improvement of an artificial myocardial assist device using shape memory alloy fibres. 29th Annual International Conference of IEEE-EMBS, Engineering in Medicine and Biology Society, EMBC'07. 2007. pp. 3974-3977 (Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings).

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abstract = "The authors have been developing a mechano-electric artificial myocardial assist system (artificial myocardium) which is capable of supporting natural contractile functions from the outside of the ventricle without blood contacting surface. In this study, a nano-tech covalent type shape memory alloy fibre (Biometal, Toki Corp, Japan) was employed and the parallel-link structured myocardial assist device was developed. And basic characteristics of the system were examined in a mechanical circulatory system as well as in animal experiments using goats. The contractile functions were evaluated with the mock circulatory system that simulated systemic circulation with a silicone left ventricular model and an aortic afterload. Hemodynamic performance was also examined in goats. Prior to the measurement, the artificial myocardial assist device was installed into the goat's thoracic cavity and attached onto the ventricular wall. As a result, the system could be installed successfully without severe complications related to the heating, and the aortic flow rate was increased by 15% and the systolic left ventricular pressure was elevated by 7% under the cardiac output condition of 3L/min in a goat. And those values were elevated by the improvement of the design which was capable of the natural morphological myocardial tissue streamlines. Therefore it was indicated that the effective assistance might be achieved by the contraction by the newly-designed artificial myocardial assist system using Biometal. Moreover it was suggested that the assistance gain might be obtained by the optimised configuration design along with the natural anatomical myocardial stream line.",

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Morphological approach for the functional improvement of an artificial myocardial assist device using shape memory alloy fibres

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