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Spatially selective manipulation of cells with single-beam acoustical tweezers

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  • Michael Baudoin

    (Univ. Lille, CNRS, Centrale Lille, Yncréa ISEN, Univ. Polytechnique Hauts-de-France, UMR 8520—IEMN, SATT NORD
    Institut Universitaire de France)

  • Jean-Louis Thomas

    (Sorbonne Université, CNRS, Institut des NanoSciences de Paris, INSP)

  • Roudy Al Sahely

    (Univ. Lille, CNRS, Centrale Lille, Yncréa ISEN, Univ. Polytechnique Hauts-de-France, UMR 8520—IEMN, SATT NORD)

  • Jean-Claude Gerbedoen

    (Univ. Lille, CNRS, Centrale Lille, Yncréa ISEN, Univ. Polytechnique Hauts-de-France, UMR 8520—IEMN, SATT NORD)

  • Zhixiong Gong

    (Univ. Lille, CNRS, Centrale Lille, Yncréa ISEN, Univ. Polytechnique Hauts-de-France, UMR 8520—IEMN, SATT NORD)

  • Aude Sivery

    (Univ. Lille, CNRS, Centrale Lille, Yncréa ISEN, Univ. Polytechnique Hauts-de-France, UMR 8520—IEMN, SATT NORD)

  • Olivier Bou Matar

    (Univ. Lille, CNRS, Centrale Lille, Yncréa ISEN, Univ. Polytechnique Hauts-de-France, UMR 8520—IEMN, SATT NORD)

  • Nikolay Smagin

    (Univ. Lille, CNRS, Centrale Lille, Yncréa ISEN, Univ. Polytechnique Hauts-de-France, UMR 8520—IEMN, SATT NORD)

  • Peter Favreau

    (Univ. Lille, CNRS, Centrale Lille, Yncréa ISEN, Univ. Polytechnique Hauts-de-France, UMR 8520—IEMN, SATT NORD)

  • Alexis Vlandas

    (Univ. Lille, CNRS, Centrale Lille, Yncréa ISEN, Univ. Polytechnique Hauts-de-France, UMR 8520—IEMN, SATT NORD)

Abstract

Acoustical tweezers open major prospects in microbiology for cells and microorganisms contactless manipulation, organization and mechanical properties testing since they are biocompatible, label-free and have the potential to exert forces several orders of magnitude larger than their optical counterpart at equivalent power. Yet, these perspectives have so far been hindered by the absence of spatial selectivity of existing acoustical tweezers - i.e., the ability to select and move objects individually - and/or their limited resolution restricting their use to large particle manipulation only and/or finally the limited forces that they could apply. Here, we report precise selective manipulation and positioning of individual human cells in a standard microscopy environment with trapping forces up to ~200 pN without altering their viability. These results are obtained with miniaturized acoustical tweezers combining holography with active materials to synthesize specific wavefields called focused acoustical vortices designed to produce stiff localized traps with reduced acoustic power.

Suggested Citation

  • Michael Baudoin & Jean-Louis Thomas & Roudy Al Sahely & Jean-Claude Gerbedoen & Zhixiong Gong & Aude Sivery & Olivier Bou Matar & Nikolay Smagin & Peter Favreau & Alexis Vlandas, 2020. "Spatially selective manipulation of cells with single-beam acoustical tweezers," Nature Communications, Nature, vol. 11(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-18000-y
    DOI: 10.1038/s41467-020-18000-y
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    Cited by:

    1. Joseph Rufo & Peiran Zhang & Ruoyu Zhong & Luke P. Lee & Tony Jun Huang, 2022. "A sound approach to advancing healthcare systems: the future of biomedical acoustics," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    2. Ye He & Shujie Yang & Pengzhan Liu & Ke Li & Ke Jin & Ryan Becker & Jinxin Zhang & Chuanchuan Lin & Jianping Xia & Zhehan Ma & Zhiteng Ma & Ruoyu Zhong & Luke P. Lee & Tony Jun Huang, 2023. "Acoustofluidic Interfaces for the Mechanobiological Secretome of MSCs," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    3. Jan Durrer & Prajwal Agrawal & Ali Ozgul & Stephan C. F. Neuhauss & Nitesh Nama & Daniel Ahmed, 2022. "A robot-assisted acoustofluidic end effector," Nature Communications, Nature, vol. 13(1), pages 1-13, December.

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