Yuta Murayama scite author profile

Yuta Murayama

2Publications

51Citation Statements Received

27Citation Statements Given

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Tokyo University of Agriculture and Technology

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Preliminary study on forming microbubble-surrounded cells as carriers for cellular therapy and evaluation of ultrasound controllability by fluorescence imaging

Demachi

Murayama

Hosaka

et al. 2015

Jpn. J. Appl. Phys.

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Although various cellular immune therapies have been proposed and developed, because the therapeutic cells disperse upon injection into blood flow, there is a limitation on the accumulation of the cells to the target area. We previously reported our attempts to actively control microbubbles in artificial blood vessels, and here we propose a new method of carrying therapeutic cells for cellular therapy using microbubbles and ultrasound. When microbubbles and their aggregations attach to the surface of therapeutic cells, the acoustic force needed to propel the cells is increased because of the size expansion and the boundary in acoustic impedance on the cell surface. We fabricated a cylindrical chamber including two ultrasound transducers to emit a suspension of microbubbles (TF-BLs, transferrin-bubble liposomes) on the cells (Colon-26) to enhance the adhesion of microbubbles on the cells. We found that the optimum conditions for producing BL-surrounded cells were a sound pressure of 100 kPa-pp, an exposure time of 30 s, and a TF-BL concentration of 0.33 mg lipid/mL, when the cell concentration was constant at 0.77 ' 10 5 /mL in phosphate-buffered saline. Using these BL-surrounded cells, we confirmed the controllability of the cells under ultrasound exposure, where the displacement increased in proportion to the sound pressure and was not confirmed with the original cells.

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

Sawaguchi

Demachi

Murayama

et al. 2015

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Yuta Murayama

Preliminary study on forming microbubble-surrounded cells as carriers for cellular therapy and evaluation of ultrasound controllability by fluorescence imaging

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

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