Transportation and discrimination of cells using ultrasound flexural vibration of a glass substrate

Otsuka Tomohiro; Koyama Daisuke; Matsukawa Mami

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Transportation and discrimination of cells using ultrasound flexural vibration of a glass substrate

机译：利用玻璃基板的超声弯曲振动进行细胞的运输和识别

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Manipulation and evaluation techniques with high accuracy and selectivity for microbiological materials are required in the fields of medical and life sciences. This paper investigated on-chip discrimination of cells using ultrasound vibration. The chip consists of a rectangular glass substrate with a microchannel and two ultrasound transducers. An acoustic standing-wave field was generated in the channel and the cells were manipulated by acoustic radiation force. The moving speed of the cells in the channel was measured and the results showed a significant difference in the moving speed between the types of cells. (C) 2019 The Japan Society of Applied Physics

机译：在医学和生命科学领域中，需要对微生物材料具有高精度和高选择性的操纵和评估技术。本文研究了利用超声振动对细胞进行芯片识别的方法。该芯片由带有微通道的矩形玻璃基板和两个超声换能器组成。在通道中产生声驻波场，并通过声辐射力操纵细胞。测量通道中小室的移动速度，结果显示不同类型小室之间的移动速度有显着差异。（C）2019日本应用物理学会

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《Japanese journal of applied physics》 |2019年第sg期|SGGD10.1-SGGD10.3|共3页
作者
Otsuka Tomohiro; Koyama Daisuke; Matsukawa Mami;
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Doshisha Univ, Fac Life & Med Sci, Kyoto 6100321, Japan;

Doshisha Univ, Fac Sci & Engn, Kyoto 6100321, Japan;

Doshisha Univ, Fac Sci & Engn, Kyoto 6100321, Japan;

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1. Transportation and discrimination of cells using ultrasound flexural vibration of a glass substrate [J] . Otsuka Tomohiro, Koyama Daisuke, Matsukawa Mami Japanese journal of applied physics . 2019,第SG期

机译：使用玻璃基板的超声弯曲振动运输和辨别细胞
2. On-chip ultrasonic manipulation of microparticles by using the flexural vibration of a glass substrate [J] . Yamamoto Ryota, Koyama Daisuke, Matsukawa Mami Ultrasonics . 2017,第期

机译：通过使用玻璃基板的弯曲振动，微粒的片上超声波操纵
3. On the use of ultrasounds to quantify the longitudinal threshold force to detach osteoblastic cells from a conditioned glass substrate [J] . Debavelaere-Callens D, Peyre L, Campistron P, Biomolecular engineering . 2007,第5期

机译：关于使用超声波量化纵向阈值力以将成骨细胞从条件化玻璃基板上分离
4. On-chip ultrasonic manipulation of micro-particles using flexural vibration of a glass substrate [C] . Yamamoto Ryota, Koyama Daisuke, Matsukawa Mami IEEE International Ultrasonics Symposium . 2015

机译：使用玻璃基板的弯曲振动对微粒进行片上超声处理
5. Development of a cell morphological analysis tool to evaluate the ultrasound vibrational effects on cell adhesion [D] . Smith, Joseph M. 2015

机译：开发一种细胞形态分析工具，以评估超声振动对细胞粘附的影响
6. Effects of Traffic Vibrations on the Flexural Properties of Newly Placed PVA-ECC Bridge Repairs [O] . Xiaodong Zhang, Shuguang Liu, Changwang Yan, 2019

机译：交通振动对新放置的PVA-ECC桥修复件抗弯性能的影响
7. Experimental investigation of damping flexural vibrations in glass fibre composite plates containing one- and two-dimensional acoustic black holes [O] . Bowyer E.P., Krylov Victor V. 2014

机译：一维和二维声黑洞的玻璃纤维复合板阻尼弯曲振动的实验研究
8. Low Cost Glass and Glass-Ceramic Substrates for Thin-Film Silicon Solar Cells: Final Subcontract Report, 25 January 2001 [R] . Ast, D., Emchuk, N., Rasula, S. 2002

机译：用于薄膜硅太阳能电池的低成本玻璃和玻璃陶瓷基板：最终分包合同报告，2001年1月25日

Transportation and discrimination of cells using ultrasound flexural vibration of a glass substrate

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