Physical forces,such as magnetic and mechanical stimulation,are known to play a significant role in the regulation of cell response.In the present study,a biomimetic regeneration patch was fabricated using E-jet 3D printing,which integrates mechanical and magnetic stimulation in a biocompatible"one-pot reaction"strategy when combined with a static magnetic field(SMF).The magneto-based therapeutic regeneration patch induced myoblasts to form aligned and multinucleated myotubes,regulated the expression of myogenic-related genes,and activated the p38α mitogen-activated protein kinase pathway via the initiation of myogenic differentiation.To validate the efficiency of the proposed strategy,the regeneration patch was implanted into mice and exposed to a suitable SMF,which resulted in significantly enhanced in vivo skeletal muscle regeneration.The findings demonstrated that appropriate external physical stimulation provides a suitable biophysical microenvironment that is conducive to tissue regeneration.The method used in the present study represents a promising technique to induce the regeneration of damaged skeletal muscle tissue.

Xiaocheng Wang;Ruibo Zhao;Jian Wang;Xinghuan Li;Lijuan Jin;Wenyu Liu;Lifang Yang;Yonghua Zhu;Zhikai Tan

College of Biology,Hunan University,Changsha 410082,China;Department of Orthopaedics,Xiangya Hospital,Central South University,Changsha 410008,China;Key Laboratory of Carcinogenesis and Cancer Invasions of Ministry of Education, School of Basic Medicine Science, Cancer Research Institute, Central South University, Changsha 410008, China

生物设计与制造（英文）

[1]Xiaocheng Wang;Ruibo Zhao;Jian Wang;Xinghuan Li;Lijuan Jin;Wenyu Liu;Lifang Yang;Yonghua Zhu;Zhikai Tan-.3D-printed tissue repair patch combining mechanical support and magnetism for controlled skeletal muscle regeneration)[J].生物设计与制造（英文）,2022(02):249-264

multinucleated

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