Issue 4, 2024
From the journal:

Lab on a Chip

A vibrating capillary for ultrasound rotation manipulation of zebrafish larvae

Zhiyuan Zhang, ORCID logo a   Yilin Cao,a   Sara Caviglia,b   Prajwal Agrawal, ORCID logo a   Stephan C. F. Neuhaussb  and  Daniel Ahmed*a  

* Corresponding authors

a Acoustic Robotics Systems Laboratory, Institute of Robotics and Intelligent Systems, Department of Mechanical and Process Engineering, ETH Zurich, Säumerstrasse 4, CH-8803 Zurich, Switzerland
E-mail: dahmed@ethz.ch

b Neuhauss Laboratory, Department of Molecular Life Sciences, University of Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland

Abstract

Multifunctional micromanipulation systems have garnered significant attention due to the growing interest in biological and medical research involving model organisms like zebrafish (Danio rerio). Here, we report a novel acoustofluidic rotational micromanipulation system that offers rapid trapping, high-speed rotation, multi-angle imaging, and 3D model reconstruction of zebrafish larvae. An ultrasound-activated oscillatory glass capillary is used to trap and rotate a zebrafish larva. Simulation and experimental results demonstrate that both the vibrating mode and geometric placement of the capillary contribute to the developed polarized vortices along the long axis of the capillary. Given its capacities for easy-to-operate, stable rotation, avoiding overheating, and high-throughput manipulation, our system poses the potential to accelerate zebrafish-directed biomedical research.

Graphical abstract: A vibrating capillary for ultrasound rotation manipulation of zebrafish larvae

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Article information

DOI
https://doi.org/10.1039/D3LC00817G
Article type
Paper
Submitted
26 Sep 2023
Accepted
18 Dec 2023
First published
29 Dec 2023
This article is Open Access
Creative Commons BY-NC license

Lab Chip, 2024,24, 764-775

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A vibrating capillary for ultrasound rotation manipulation of zebrafish larvae

Z. Zhang, Y. Cao, S. Caviglia, P. Agrawal, S. C. F. Neuhauss and D. Ahmed, Lab Chip, 2024, 24, 764 DOI: 10.1039/D3LC00817G

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