Jin Yang
Donghua University
13 Papers
6 Citations
Jin Yang is an academic researcher from Donghua University. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 3, co-authored 6 publications.
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Papers
Tannic acid-reinforced methacrylated chitosan/methacrylated silk fibroin hydrogels with multifunctionality for accelerating wound healing.
Xi He,Liu Xuezhe,Jin Yang,Haibo Du,Ningwen Chai,Zhou Sha,Mengru Geng,Xiaojun Zhou,Chuanglong He +8 more
TL;DR: The introduction of TA into hydrogels further improved the antimicrobial activities against both Escherichia coli and Staphylococcus Aureus, as well as the cytocompatibility on fibroblasts, and demonstrated that the TA-treated CSMA/SFMA hydrogel could significantly promote wound healing in a full-thickness skin defect model.
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Construction of 3D printed constructs based on microfluidic microgel for bone regeneration
Ningwen Chai,Jingtian Zhang,Qianqian Zhang,Haibo Du,Xi He,Jin Yang,Xiaojun Zhou,Jiawen He,Chuanglong He +8 more
TL;DR: The strategy of preparing cell-laden microgels based on microfluidic technology to improve the survival rate of cells in the bioprinting process can be available and effective in development of tissue engineered constructs.
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3D bioprinted gelatin/gellan gum-based scaffold with double-crosslinking network for vascularized bone regeneration.
TL;DR: Wang et al. as discussed by the authors combined deferoxamine (DFO)-loaded ethosomes (Eth) with gelatin methacrylate (GelMA)/gellan gum methacelate (GGMA) hybrid bioink to fabricate 3D-printed scaffold by photo-and ion-crosslinking.
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Localized delivery of FTY-720 from 3D printed cell-laden gelatin/silk fibroin composite scaffolds for enhanced vascularized bone regeneration
Jin Yang,Changxu Deng,Muhammad Shafiq,Zhihui Li,Qianqian Zhang,Haibo Du,Shikai Li,Xiao Jun Zhou,Chuanglong He +8 more
TL;DR: In this article , a 3D printed mesenchymal stem cells (BMSC)-laden scaffold using methacrylated gelatin (GelMA/SFMA) based bioinks along with localized sustained release of a small molecule drug fingolimod (FTY-720) for the synergistic interactions of vascularization and osteogenesis during bone repair.
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Construction of a nanofiber network within 3D printed scaffolds for vascularized bone regeneration
TL;DR: In this article, a 3D printed biodegradable poly (glycerol-co-sebacic acid-co l-lactic acid-polyethylene glycol) (PGSLP)-based scaffold that was internally filled with gelatin nanofibers and allowed the local release of deferoxamine (DFO), which is essential for angiogenesis and osteogenesis in bone regeneration.
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