基于液滴微流控的细胞凝胶微球研究进展

液滴微流控技术在微纳米尺度上对多种流体的流动进行精确控制,从而能够以高通量的方式生成结构可调和成分可控的微纳米液滴。通过结合合适的水凝胶材料和制造方法,可以将单个或多个细胞高效地封装进水凝胶中,制备细胞凝胶微球。细胞凝胶微球可以为细胞的增殖、分化等提供一个三维的、相对独立可控的微环境,在三维细胞培养、组织工程与再生医学、干细胞研究和单细胞研究等生命科学领域具有重要价值。本文主要综述了基于液滴微流控技术的细胞凝胶微球的制备及其在生物医学领域的应用,并对未来的研究工作提出了展望。

Cell-loaded hydrogel microspheres based on droplet microfluidics: a review

Droplet microfluidics technology offers refined control over the flows of multiple fluids in micro/nano-scale, enabling fabrication of micro/nano-droplets with precisely adjustable structures and compositions in a high-throughput manner. With the combination of proper hydrogel materials and preparation methods, single or multiple cells can be efficiently encapsulated into hydrogels to produce cell-loaded hydrogel microspheres. The cell-loaded hydrogel microspheres can provide a three-dimensional, relatively independent and controllable microenvironment for cell proliferation and differentiation, which is of great value for three-dimensional cell culture, tissue engineering and regenerative medicine, stem cell research, single cell study and many other biological science fields. In this review, the preparation methods of cell-loaded hydrogel microspheres based on droplet microfluidics and its applications in biomedical field are summarized and future prospects are proposed.