Multi-well plate-based versatile platform for online fabricating alginate hydrogel microspheres and in-situ 3D cell culture

IF 5.7 2区 化学 Q1 CHEMISTRY, ANALYTICAL Analytica Chimica Acta Pub Date : 2024-11-14 DOI:10.1016/j.aca.2024.343427
Ziwei Zhang , Longyu Chen , Hongliang Wang , Bo Tang , Yongqiang Cheng , Meijia Zhu , Xiaotong Li , Xiaoxiao Qi , Yifan Shao , Xi Zhang
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Abstract

Background

Hydrogel microspheres with monodisperse and homogeneous dimensions have potential application in the field of three-dimensional (3D) cell culture due to its ability to provide a similar microenvironment. Currently, alginate hydrogel microspheres (AHMs) have received much attention due to the favorable properties of alginate such as biocompatibility, inexpensiveness, nontoxicity, and biodegradability. The fabrication methods of AHMs mainly include extrusion, electrostatic dripping and microfluidic chip techniques. These current methods suffer trade-offs between operational complexity, fabrication cost and practical application.

Results

We proposed a novel and versatile multi-well plate-based platform for online fabricating AHMs and in-situ 3D cell culture. The AHMs could be easily fabricated based on gravity-driven gelation combined with our recently developed bent-capillary-centrifugal-driven (BCCD) system. Ca-EDTA complex was used as Ca2+ source for crosslinking reaction of the alginate chains. The whole preparation process of AHMs included four steps: emulsification, pre-gelation, spontaneous demulsification and further solidification. The gravity-driven hydrogel microsphere gelation could produce the AHMs with good sphericity (Φ = 0.96) and monodispersity (PDI% = 0.94 %). The rapid drug susceptibility testing and single-cell encapsulation in the AHMs were well demonstrated. It also provided a novel in-situ 3D cell culture strategy, which demonstrated more than 85 % cell viability in practice.

Significance

The proposed platform avoided the complex and laborious microfabrication. Moreover, cell-encapsulated AHMs could be directly produced in the multi-well plate, which could facilitate the subsequent cultivation and observation. It is expected to be a versatile in-situ 3D cell culture tool in the fields of biomedicine and tissue engineering.

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基于多孔板的在线制造藻酸盐水凝胶微球和原位三维细胞培养多功能平台
背景由于具有单分散和均匀尺寸的水凝胶微球能够提供类似的微环境,因此在三维(3D)细胞培养领域具有潜在的应用前景。目前,藻酸盐水凝胶微球(AHMs)因其良好的生物相容性、无敏性、无毒性和可生物降解性等特性而备受关注。AHMs 的制造方法主要包括挤压、静电滴注和微流控芯片技术。结果我们提出了一种基于多孔板的新型多功能平台,用于在线制作 AHMs 和原位三维细胞培养。基于重力驱动凝胶化技术,并结合我们最近开发的弯曲毛细管-离心驱动(BCD)系统,AHMs 可以轻松制备。Ca-EDTA 复合物被用作海藻酸链交联反应的 Ca2+ 源。AHMs 的整个制备过程包括四个步骤:乳化、预凝胶化、自发反乳化和进一步凝固。重力驱动的水凝胶微球凝胶化可制备出具有良好球形度(Φ = 0.96)和单分散性(PDI% = 0.94%)的 AHMs。AHMs 的快速药敏试验和单细胞包封性能得到了很好的验证。它还提供了一种新颖的原位三维细胞培养策略,在实践中细胞存活率超过 85%。此外,细胞包被的 AHMs 可直接在多孔板中制备,便于后续的培养和观察。它有望成为生物医学和组织工程领域的一种多功能原位三维细胞培养工具。
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来源期刊
Analytica Chimica Acta
Analytica Chimica Acta 化学-分析化学
CiteScore
10.40
自引率
6.50%
发文量
1081
审稿时长
38 days
期刊介绍: Analytica Chimica Acta has an open access mirror journal Analytica Chimica Acta: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. Analytica Chimica Acta provides a forum for the rapid publication of original research, and critical, comprehensive reviews dealing with all aspects of fundamental and applied modern analytical chemistry. The journal welcomes the submission of research papers which report studies concerning the development of new and significant analytical methodologies. In determining the suitability of submitted articles for publication, particular scrutiny will be placed on the degree of novelty and impact of the research and the extent to which it adds to the existing body of knowledge in analytical chemistry.
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