Rapid construction and enhanced vascularization of microtissue using a magnetic control method
Guangzheng Yang, Fei Jiang, Yuezhi Lu, Sihan Lin, Chang Liu, Anshuo Li, David L Kaplan, Shilei Zhang, Yue He, Cui Huang, Wenjie Zhang, Xinquan Jiang
Journal:Biofabrication
IF:10.02
DOI:10.1088/1758-5090/abe4c2
PMID:33967033
Published:2021-05-07
research field:生物材料科学再生医学组织工程
Abstract
Stem cells play critical roles in tissue repair and regeneration. The construction of stem cell-derived microtissue is a promising strategy for transplanting cells into defects to improve tissue regeneration efficiency. However, rapidly constructing larger microtissues and promoting vascularization to ensure the cellular nutrient supply remain major challenges. Here, we have developed a magnetic device to rapidly construct and regulate millimeter-scale microtissues derived from magnetic nanoparticle-labeled cells. When the microtissue was cultured under a specific magnetic field, the shape of the microtissue could be changed. Importantly, cell proliferation was maintained, and angiogenesis was activated in the process of microtissue deformation. We developed a magnetic control method to treat microtissue, and the implanted microtissue showed excellent vascularization in vivo. In brief, this magnetic control technology provides a promising strategy for vascularized regenerative medicine.
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