A Multifunctional Acoustic Tweezer for Heterogenous Assembloids Patterning

A Multifunctional Acoustic Tweezer for Heterogenous Assembloids Patterning

Acoustic tweezers, capable of complicated manipulation of bioparticles by acoustic radiation forces using a noninvasive and noncontact approach, are an innovative technology for patterning assemble organoids. Hence, acoustic tweezers exhibit considerable potential for forming programmable patterning...

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Main Authors: Zeping Gao, Shuo Wang, Yufei Sui, Qi Zhang, Ye Yang, Jiqing Huang, Yucui Xiong, Teng Ma, Xiao Zhang, Hairong Zheng
Format: Article
Language:English
Published: Wiley-VCH 2023-05-01
Series:Small Structures
Subjects:
disease modeling
heterogenous assembloids
holographic acoustic tweezers
stem cell engineering
Online Access:https://doi.org/10.1002/sstr.202200288
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author Zeping Gao
Shuo Wang
Yufei Sui
Qi Zhang
Ye Yang
Jiqing Huang
Yucui Xiong
Teng Ma
Xiao Zhang
Hairong Zheng
author_facet Zeping Gao
Shuo Wang
Yufei Sui
Qi Zhang
Ye Yang
Jiqing Huang
Yucui Xiong
Teng Ma
Xiao Zhang
Hairong Zheng
author_sort Zeping Gao
collection DOAJ
description Acoustic tweezers, capable of complicated manipulation of bioparticles by acoustic radiation forces using a noninvasive and noncontact approach, are an innovative technology for patterning assemble organoids. Hence, acoustic tweezers exhibit considerable potential for forming programmable patterning of organoids with specific spatial structures. Furthermore, heterogeneous assembloids with complex arrangement patterns can be built through sequential assembling and culturing to explore polarized tissue development or disease metastasis in multiple organs. This study focuses on the structural assembly of organoids using an ultrasonic 2D matrix array to generate real‐time switching of different acoustic fields. In addition, a local renal injured assembloid is fabricated to study and verify its application in tissue engineering and disease modeling.
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issn 2688-4062
language English
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spelling doaj.art-92538dd831c641148133778a08012e162023-07-26T01:36:10ZengWiley-VCHSmall Structures2688-40622023-05-0145n/an/a10.1002/sstr.202200288A Multifunctional Acoustic Tweezer for Heterogenous Assembloids PatterningZeping Gao0Shuo Wang1Yufei Sui2Qi Zhang3Ye Yang4Jiqing Huang5Yucui Xiong6Teng Ma7Xiao Zhang8Hairong Zheng9Paul C. Lauterbur Research Center for Biomedical Imaging Shenzhen Institutes of Advanced Technology Chinese Academy of Sciences Shenzhen 518055 ChinaPaul C. Lauterbur Research Center for Biomedical Imaging Shenzhen Institutes of Advanced Technology Chinese Academy of Sciences Shenzhen 518055 ChinaCAS Key Laboratory of Regenerative Biology Joint School of Life Sciences Guangzhou Institutes of Biomedicine and Health Chinese Academy of Sciences Guangzhou Medical University Guangzhou 510530 ChinaPaul C. Lauterbur Research Center for Biomedical Imaging Shenzhen Institutes of Advanced Technology Chinese Academy of Sciences Shenzhen 518055 ChinaPaul C. Lauterbur Research Center for Biomedical Imaging Shenzhen Institutes of Advanced Technology Chinese Academy of Sciences Shenzhen 518055 ChinaPaul C. Lauterbur Research Center for Biomedical Imaging Shenzhen Institutes of Advanced Technology Chinese Academy of Sciences Shenzhen 518055 ChinaCAS Key Laboratory of Regenerative Biology Joint School of Life Sciences Guangzhou Institutes of Biomedicine and Health Chinese Academy of Sciences Guangzhou Medical University Guangzhou 510530 ChinaPaul C. Lauterbur Research Center for Biomedical Imaging Shenzhen Institutes of Advanced Technology Chinese Academy of Sciences Shenzhen 518055 ChinaCAS Key Laboratory of Regenerative Biology Joint School of Life Sciences Guangzhou Institutes of Biomedicine and Health Chinese Academy of Sciences Guangzhou Medical University Guangzhou 510530 ChinaPaul C. Lauterbur Research Center for Biomedical Imaging Shenzhen Institutes of Advanced Technology Chinese Academy of Sciences Shenzhen 518055 ChinaAcoustic tweezers, capable of complicated manipulation of bioparticles by acoustic radiation forces using a noninvasive and noncontact approach, are an innovative technology for patterning assemble organoids. Hence, acoustic tweezers exhibit considerable potential for forming programmable patterning of organoids with specific spatial structures. Furthermore, heterogeneous assembloids with complex arrangement patterns can be built through sequential assembling and culturing to explore polarized tissue development or disease metastasis in multiple organs. This study focuses on the structural assembly of organoids using an ultrasonic 2D matrix array to generate real‐time switching of different acoustic fields. In addition, a local renal injured assembloid is fabricated to study and verify its application in tissue engineering and disease modeling.https://doi.org/10.1002/sstr.202200288disease modelingheterogenous assembloidsholographic acoustic tweezersstem cell engineering
spellingShingle Zeping Gao
Shuo Wang
Yufei Sui
Qi Zhang
Ye Yang
Jiqing Huang
Yucui Xiong
Teng Ma
Xiao Zhang
Hairong Zheng
A Multifunctional Acoustic Tweezer for Heterogenous Assembloids Patterning
Small Structures
disease modeling
heterogenous assembloids
holographic acoustic tweezers
stem cell engineering
title A Multifunctional Acoustic Tweezer for Heterogenous Assembloids Patterning
title_full A Multifunctional Acoustic Tweezer for Heterogenous Assembloids Patterning
title_fullStr A Multifunctional Acoustic Tweezer for Heterogenous Assembloids Patterning
title_full_unstemmed A Multifunctional Acoustic Tweezer for Heterogenous Assembloids Patterning
title_short A Multifunctional Acoustic Tweezer for Heterogenous Assembloids Patterning
title_sort multifunctional acoustic tweezer for heterogenous assembloids patterning
topic disease modeling
heterogenous assembloids
holographic acoustic tweezers
stem cell engineering
url https://doi.org/10.1002/sstr.202200288
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