Cong Wu
Yangzhou University
5 Papers
1 Citations
Cong Wu is an academic researcher from Yangzhou University. The author has contributed to research in topics: Decellularization & Transplantation. The author has co-authored 1 publications.
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Papers
Directly construct microvascularization of tissue engineering trachea in orthotopic transplantation.
Sun Fei,Yi Lu,Zhihao Wang,Boyou Zhang,Boyou Zhang,zhiming shen,lei yuan,Cong Wu,Qiang Wu,Qiang Wu,Wenlong Yang,Guozhong Zhang,Ziyin Pan,Hongcan Shi +13 more
TL;DR: A one-step method to construct microvascularization of tissue-engineered trachea in orthotopic transplantation and concludes that this natural VAD tracheal matrix is non-immunogenic and no inflammatory reactions in vivo transplantation.
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Biomimetic in situ tracheal microvascularization for segmental tracheal reconstruction in one‐step
Fei Sun,Zhiming Shen,Boyou Zhang,Yi Lu,Yibo Shan,Qian Wu,Lei Yuan,Shu Pan,Zhihao Wang,Cong Wu,Guozhong Zhang,Wenlong Yang,Hongcan Shi +12 more
TL;DR: In this paper , the authors proposed a method to construct a tissue-engineered tracheal graft, which directly forms the microvascular network after orthotopic transplantation in vivo.
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A novel decellularized trachea preparation method for the rapid construction of a functional tissue engineered trachea to repair tracheal defects.
TL;DR: SLES is used to develop a novel decellularized approach for the preparation of TET, which has low immunogenic and inflammatory responses, as well as excellent biocompatibility, and revascularization ability in vivo without additional exogenous cytokines.
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Construction of a novel cell-free tracheal scaffold promoting vascularization for repairing tracheal defects
Zhiming Shen,Fei Sun,Yibo Shan,Cong Wu,Qi Wang,Yilun Wang,Wenxuan Chen,Yaojing Zhang,Yiwei Fan +8 more
TL;DR: A novel tracheal stent composed of methacrylate gelatin/vascular endothelial progenitor exosome/polycaprolactone, which effectively promotes angiogenesis for trachea repair, thereby offering significant prospects for clinical and translational medicine.
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Macrophage-mediated delivery of Fe3O4-nanoparticles: a generalized strategy to deliver iron to Tumor Microenvironment.
TL;DR: Increase of intracellular iron efflux by overexpression of FPN1, cell carriers can act as a reservoir for iron, providing the basis for targeted delivery of Fe3O4-NPs and iron ions in vivo.
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