Hui Jing
Shanghai Jiao Tong University
11 Papers
9 Citations
Hui Jing is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Mesenchymal stem cell & Chondrogenesis. The author has an hindex of 5, co-authored 11 publications.
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Papers
Exosomes and regenerative medicine: state of the art and perspectives.
TL;DR: Roles in tissue repair and regenerative processes and their potential applications in tissue regeneration are reviewed here as an outlook for future research.
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Long-segmental tracheal reconstruction in rabbits with pedicled Tissue-engineered trachea based on a 3D-printed scaffold.
TL;DR: The combination of in vitro pre-culture and in vivo pre-vascularization successfully generated a segmental tracheal substitute with bionic structure and mechanical properties similar to the native trachea of rabbits, presenting a promising approach for surgical reconstruction of long segmentaltracheal defects.
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Kartogenin preconditioning commits mesenchymal stem cells to a precartilaginous stage with enhanced chondrogenic potential by modulating JNK and β-catenin–related pathways
Hui Jing,Xiaoyang Zhang,Manchen Gao,Kai Luo,Wei Fu,Meng Yin,Wei Wang,Zhongqun Zhu,Jinghao Zheng,Xiaomin He +9 more
TL;DR: KGN preconditioning likely improves the chondrogenic differentiation of hUCMSCs by committing them to a precartilaginous stage with enhanced JNK phosphorylation and suppressed β‐catenin levels.
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Restoring tracheal defects in a rabbit model with tissue engineered patches based on TGF-β3-encapsulating electrospun poly(l-lactic acid-co-ε-caprolactone)/collagen scaffolds.
Hui Jing,Botao Gao,Manchen Gao,Haiyue Yin,Xiumei Mo,Xiaoyang Zhang,Kai Luo,Bei Feng,Wei Fu,Jing Wang,Wei Zhang,Meng Yin,Zhongqun Zhu,Xiaomin He,Jinghao Zheng +14 more
TL;DR: TGF-β3-encapsulating core–shell electrospun scaffolds with a PLCL/collagen proportion of 75:25 could be used to optimize engineering process of tracheal patches to promote the chondrogenic differentiation of BMSCs and shorten the incubation time.
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Exosomes from 3T3-J2 promote expansion of tracheal basal cells to facilitate rapid epithelization of 3D-printed double-layer tissue engineered trachea.
Xiaoyang Zhang,Hui Jing,Kai Luo,Bozhong Shi,Qiancheng Luo,Zhongqun Zhu,Xiaomin He,Jinghao Zheng +7 more
TL;DR: Wang et al. as discussed by the authors proposed a promising expansion strategy which enables the tracheal basal cells (TBCs) to proliferate rapidly in vitro, and they used 3D-printed double-layer scaffolds to facilitate the rapid epithelization process of transplanted TET.
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