Observation of flow variation in capillaries of artificial blood vessel by producing microbubble aggregations.

Kohji Masuda; Nobuhiko Shigehara; Ren Koda; Nobuyuki Watarai; Seiichi Ikeda; Fumihito Arai; Yoshitaka Miyamoto; Toshio Chiba

Observation of flow variation in capillaries of artificial blood vessel by producing microbubble aggregations.

Kohji Masuda, Nobuhiko Shigehara, Ren Koda, Nobuyuki Watarai, Seiichi Ikeda, Fumihito Arai, Yoshitaka Miyamoto, Toshio Chiba

ENG - Materials Processing

Research output: Contribution to journal › Article › peer-review

Abstract

Microbubbles form their aggregations between the neighboring microbubbles by the effect of secondary Bjerknes force under ultrasound exposure. However, because of the difficulty to reproduce a capillary-mimicking artificial blood vessel, the behavior of aggregations in a capillary has not been predicted. Thus we prepared artificial blood vessels including a capillary model, which was made of poly(vinyl alcohol) (PVA) by grayscale lithography method, with minimum diameter of the path of 0.5 mm. By using this model we investigated the possibility of artificial embolization, where the microbubble aggregations might block entire vessels not to penetrate flow in downstream. Confirming that the sizes of flown aggregation were greater than the section area of the minimum path in the capillary model, we investigated the probability of path block in it. As the results we confirmed the probability increased in proportion to sound pressure and inversely to flow velocity. We are going to investigate with more kinds of parameters to enhance the possibility of artificial embolization.

Original language	English
Pages (from-to)	2064-2067
Number of pages	4
Journal	Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference
Volume	2012
Publication status	Published - 2012 Dec 1

ASJC Scopus subject areas

Signal Processing
Biomedical Engineering
Computer Vision and Pattern Recognition
Health Informatics

Cite this

Masuda, K., Shigehara, N., Koda, R., Watarai, N., Ikeda, S., Arai, F., Miyamoto, Y., & Chiba, T. (2012). Observation of flow variation in capillaries of artificial blood vessel by producing microbubble aggregations. Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference, 2012, 2064-2067.

Observation of flow variation in capillaries of artificial blood vessel by producing microbubble aggregations. / Masuda, Kohji; Shigehara, Nobuhiko; Koda, Ren et al.

In: Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference, Vol. 2012, 01.12.2012, p. 2064-2067.

Research output: Contribution to journal › Article › peer-review

Masuda, K, Shigehara, N, Koda, R, Watarai, N, Ikeda, S, Arai, F, Miyamoto, Y & Chiba, T 2012, 'Observation of flow variation in capillaries of artificial blood vessel by producing microbubble aggregations.', Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference, vol. 2012, pp. 2064-2067.

Masuda K, Shigehara N, Koda R, Watarai N, Ikeda S, Arai F et al. Observation of flow variation in capillaries of artificial blood vessel by producing microbubble aggregations. Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference. 2012 Dec 1;2012:2064-2067.

Masuda, Kohji ; Shigehara, Nobuhiko ; Koda, Ren et al. / Observation of flow variation in capillaries of artificial blood vessel by producing microbubble aggregations. In: Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference. 2012 ; Vol. 2012. pp. 2064-2067.

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abstract = "Microbubbles form their aggregations between the neighboring microbubbles by the effect of secondary Bjerknes force under ultrasound exposure. However, because of the difficulty to reproduce a capillary-mimicking artificial blood vessel, the behavior of aggregations in a capillary has not been predicted. Thus we prepared artificial blood vessels including a capillary model, which was made of poly(vinyl alcohol) (PVA) by grayscale lithography method, with minimum diameter of the path of 0.5 mm. By using this model we investigated the possibility of artificial embolization, where the microbubble aggregations might block entire vessels not to penetrate flow in downstream. Confirming that the sizes of flown aggregation were greater than the section area of the minimum path in the capillary model, we investigated the probability of path block in it. As the results we confirmed the probability increased in proportion to sound pressure and inversely to flow velocity. We are going to investigate with more kinds of parameters to enhance the possibility of artificial embolization.",

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AU - Masuda, Kohji

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AU - Koda, Ren

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AU - Ikeda, Seiichi

AU - Arai, Fumihito

AU - Miyamoto, Yoshitaka

AU - Chiba, Toshio

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AB - Microbubbles form their aggregations between the neighboring microbubbles by the effect of secondary Bjerknes force under ultrasound exposure. However, because of the difficulty to reproduce a capillary-mimicking artificial blood vessel, the behavior of aggregations in a capillary has not been predicted. Thus we prepared artificial blood vessels including a capillary model, which was made of poly(vinyl alcohol) (PVA) by grayscale lithography method, with minimum diameter of the path of 0.5 mm. By using this model we investigated the possibility of artificial embolization, where the microbubble aggregations might block entire vessels not to penetrate flow in downstream. Confirming that the sizes of flown aggregation were greater than the section area of the minimum path in the capillary model, we investigated the probability of path block in it. As the results we confirmed the probability increased in proportion to sound pressure and inversely to flow velocity. We are going to investigate with more kinds of parameters to enhance the possibility of artificial embolization.

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JF - Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference

ER -

Observation of flow variation in capillaries of artificial blood vessel by producing microbubble aggregations.

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ASJC Scopus subject areas

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