Assessment of synchronization measures for effective ventricular support by using the shape memory alloy fibred artificial myocardium in goats

Shiraishi, Yasuyuki; Yambe, Tomoyuki; Saijo, Yoshifumi; Sato, F.; Yoshizawa, Makoto; Sugai, Takashi; Kaneko, Yoshikazu; Sato, Yuta; Uematsu, Miyuki; Umezu, Mitsuo; Fujimoto, Tetsuo; Masumoto, Noriyasu; Liu, H.; Baba, Atsushi; Konno, Satoshi; Tabayashi, K; Sasada, Hiroshi; Homma, Dai

doi:10.1109/iembs.2009.5333627

Cited by 3 publications

(1 citation statement)

References 5 publications

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“…We used a shape memory alloy fiber for the actuator of the pulmonary circulation assist device (BMF100, Toki Corporation, Japan) [11]- [14]. The diameter of fiber was 100μm.…”

Section: A Development Of the Circulatory Assist Devicementioning

confidence: 99%

Peristaltic hemodynamics of a new pediatric circulatory assist system for Fontan circulation using shape memory alloy fibers

Yamada

Shiraishi

Miura³

et al. 2013

2013 35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)

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Fontan procedure is one of the common surgical treatments of congenital heart diseases. Patients with Fontan circulation have single ventricle in the systemic circulation with the total cavopulmonary connection. We have been developing a pulmonary circulatory assist device using shape memory alloy fibers for Fontan circulation with total cavopulmonary connection. It consisted of the shape memory alloy fibers, the diameter of which are 100 µm. The fibers could wrap the ePTFE conduit for Fontan TCPC connection from the outside. We designed the sequential motion control system for sophisticated pulmonary hemodynamics by the pulsatile flow generation. In order to achieve pulsatile flow assistance in pulmonary arterial system, we fabricated a mechanical structure by sequential contraction of shape memory alloy fibers. Then, we developed a sequential contraction controller for the assist system, which could reproduce the wall contractile velocity at 6.0 to 20.0 cm/sec. We examined hemodynamic characteristic of its function using a mock circulatory system, which consisted of two overflow tanks representing venous and pulmonary arterial pressures in Fontan circulation. As a result, the pulmonary circulation assist device with sequential contraction could achieve effective promotion of the pulsatility in pulmonary arterial flow.

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“…We used a shape memory alloy fiber for the actuator of the pulmonary circulation assist device (BMF100, Toki Corporation, Japan) [11]- [14]. The diameter of fiber was 100μm.…”

Section: A Development Of the Circulatory Assist Devicementioning

confidence: 99%

Peristaltic hemodynamics of a new pediatric circulatory assist system for Fontan circulation using shape memory alloy fibers

Yamada

Shiraishi

Miura³

et al. 2013

2013 35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)

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Development of a thermodynamic control system for the Fontan circulation pulsation device using shape memory alloy fibers

et al. 2015

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The Fontan procedure is one of the common surgical treatments for circulatory reconstruction in pediatric patients with congenital heart disease. In Fontan circulation, low pulsatility may induce localized lung ischemia and may impair the development of pulmonary peripheral endothelial cells. To promote pulmonary circulation in Fontan circulation, we have been developing a pediatric pulmonary circulatory pulsation device using shape memory alloy fibers attached from the outside of total cavopulmonary connection. In this study, we developed a new thermal control system for the device and examined its functions. We mounted on the device 16 fibers connected in parallel around an ePTFE graft circumferentially. To provide optimized contraction, we designed the new thermal control system. The system consisted of a thermistor, a pressure sensor, and a regulator that was controlled by the adaptive thermodynamic transfer functions. We monitored the parameters and calculated heat transfer function as well as pressure distribution on the graft surface. Then we examined and compared the dynamic contractile pressure and changes in surface temperature. As a result, by the application of the control based on the new feedback system analysis, the circumferential contractile pressure increased by 35%. The adaptive thermodynamic regulation was useful for the selection of alternative thresholds of the surface temperature of the graft. The system could achieve effective contraction for the pulsatile flow generation by the device.

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Structural design of a newly developed pediatric circulatory assist device for fontan circulation by using shape memory alloy fiber

Shiraishi

Sugai

Yoshizawa

et al. 2011

2011 Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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Total cavopulmonary connection (TCPC) is commonly applied for the surgical treatment of congenital heart disease such as single ventricle in pediatric patients. Patients with no ventricle in pulmonary circulation are treated along with Fontan algorithm, in which the systemic venous return is diverted directly to the pulmonary artery without passing through subpulmonary ventricle. In order to promote the pulmonary circulation after Fontan procedure, we developed a newly designed pulmonary circulatory assist device by using shape memory alloy fibers. We developed a pulmonary circulatory assist device as a non-blood contacting mechanical support system in pediatric patients with TCPC. The device has been designed to be installed like a cuff around the ePTFE TCPC conduit, which can contract from outside. We employed a covalent type functional anisotropic shape memory alloy fiber (Biometal, Toki Corporation, Tokyo Japan) as a servo actuator of the pulmonary circulatory assist device. The diameter of this fiber was 100 microns, and its contractile frequency was 2-3 Hz. Heat generation with electric current contracts these fibers and the conduit. The maximum contraction ratio of this fiber is about 7% in length. In order to extend its contractile ratio, we fabricated and installed mechanical structural units to control the length of fibers. In this study, we examined basic contractile functions of the device in the mock system. As a result, the internal pressure of the conduit increased to 63 mmHg by the mechanical contraction under the condition of 400 msec-current supply in the mock examination with the overflow tank of 10 mmHg loading.

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Assessment of synchronization measures for effective ventricular support by using the shape memory alloy fibred artificial myocardium in goats

Cited by 3 publications

References 5 publications

Peristaltic hemodynamics of a new pediatric circulatory assist system for Fontan circulation using shape memory alloy fibers

Peristaltic hemodynamics of a new pediatric circulatory assist system for Fontan circulation using shape memory alloy fibers

Development of a thermodynamic control system for the Fontan circulation pulsation device using shape memory alloy fibers

Structural design of a newly developed pediatric circulatory assist device for fontan circulation by using shape memory alloy fiber

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