Toi Sawaguchi scite author profile

We have reported our attempts for active path selection of microbubbles by acoustic radiation forces, where we have investigated to control microbubbles by forming multiple focal points of continuous wave using a matrix array transducer. However, because those focal points were located to sweep microbubbles along the slope of sound pressure, it was difficult to concentrate microbubbles against the direction of flow. To produce attractive force to concentrate microbubbles in flow, we formed time-shared acoustic field of two focal points with phase variation. We have succeeded to concentrate microbubbles in water flow utilizing two focal points with opposite phase, where streamline of microbubbles was clearly confirmed in a thin channel. Also we confirmed induction performance using an artificial blood vessel with Y-form bifurcation, where induction rate to a desired path was calculated and varied according to the emission pattern of the focal points in time-shared acoustic fields.

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Towards <I>in vivo</I> delivery of microbubbles and cells using acoustic radiation force

Masuda

Hosaka

Demachi

et al. 2018

Jpn J Med Ultrasonics

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Active control of nanobubble-surrounded cells propelled by acoustic radiation force with verification of frequency dependence

Masuda

Sawaguchi

Wada

et al. 2016

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Toi Sawaguchi

Active control of cell with microbubbles for cellular immunotherapy by acoustic force

Forming acoustic attraction force to concentrate microbubbles in flow using a matrix array transducer

Towards <I>in vivo</I> delivery of microbubbles and cells using acoustic radiation force

Active control of nanobubble-surrounded cells propelled by acoustic radiation force with verification of frequency dependence

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