Quanyi Guo
Nankai University
13 Papers
4 Citations
Quanyi Guo is an academic researcher from Nankai University. The author has contributed to research in topics: Regeneration (biology) & Tissue engineering. The author has an hindex of 4, co-authored 13 publications. Previous affiliations of Quanyi Guo include Chinese PLA General Hospital.
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Papers
Endogenous cell recruitment strategy for articular cartilage regeneration
Zhen Yang,Hao Li,Zhiguo Yuan,Liwei Fu,Shuangpeng Jiang,Cangjian Gao,Fuxin Wang,Kangkang Zha,Guangzhao Tian,Zhiqiang Sun,Bo Huang,Fu Wei,Fuyang Cao,Xiang Sui,Jiang Peng,Shibi Lu,Weimin Guo,Weimin Guo,Shuyun Liu,Quanyi Guo,Quanyi Guo +20 more
TL;DR: A systematic overview of the status of endogenous cell recruitment strategy, subpopulations, potential migration routes, and scaffold-based drug delivery systems that are utilized for in situ AC regeneration and repair are presented.
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3D-Bioprinted Difunctional Scaffold for In Situ Cartilage Regeneration Based on Aptamer-Directed Cell Recruitment and Growth Factor-Enhanced Cell Chondrogenesis.
Zhen Yang,Zhen Yang,Tianyuan Zhao,Tianyuan Zhao,Cangjian Gao,Cangjian Gao,Fuyang Cao,Fuyang Cao,Hao Li,Hao Li,Zhiyao Liao,Zhiyao Liao,Liwei Fu,Liwei Fu,Pinxue Li,Pinxue Li,Wei Chen,Wei Chen,Zhiqiang Sun,Zhiqiang Sun,Shuangpeng Jiang,Zhuang Tian,Guangzhao Tian,Guangzhao Tian,Kangkang Zha,Kangkang Zha,Tingting Pan,Xu Li,Xiang Sui,Zhiguo Yuan,Shuyun Liu,Quanyi Guo,Quanyi Guo +32 more
TL;DR: In this article, a 3D-bioprinted difunctional scaffold was developed based on aptamer HM69-mediated MSC-specific recruitment and growth factor-enhanced cell chondrogenesis.
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Advances and prospects in biomimetic multilayered scaffolds for articular cartilage regeneration.
Liwei Fu,Liwei Fu,Zhen Yang,Zhen Yang,Cangjian Gao,Cangjian Gao,Hao Li,Hao Li,Zhiguo Yuan,Zhiguo Yuan,Fuxin Wang,Xiang Sui,Shuyun Liu,Quanyi Guo,Quanyi Guo +14 more
TL;DR: This review focuses on the current status of multilayered scaffolds developed for AC defect repair, including design strategies based on the degree of defect severity and the zone-specific characteristics of AC tissue, the selection and composition of biomaterials, and techniques for design and manufacturing.
The Application of Bioreactors for Cartilage Tissue Engineering: Advances, Limitations, and Future Perspectives.
Liwei Fu,Pinxue Li,Pinxue Li,Hao Li,Hao Li,Cangjian Gao,Cangjian Gao,Zhen Yang,Zhen Yang,Tianyuan Zhao,Tianyuan Zhao,Wei Chen,Wei Chen,Zhiyao Liao,Zhiyao Liao,Yu Peng,Fuyang Cao,Xiang Sui,Shuyun Liu,Quanyi Guo,Quanyi Guo +20 more
TL;DR: An overview of the concepts, categories, and applications of bioreactors for cartilage TE with emphasis on the design of various bioreactor systems can be found in this article,.
Tetrahedral framework nucleic acids promote the biological functions and related mechanism of synovium-derived mesenchymal stem cells and show improved articular cartilage regeneration activity in situ.
Yunfeng Lin,Liwei Fu,Liwei Fu,Pinxue Li,Remi Neviere,Pinxue Li,Junyao Zhu,Mohammad Husnul Affan,Zhiyao Liao,Zhiyao Liao,Cangjian Gao,Cangjian Gao,Hao Li,Hao Li,Zhen Yang,Zhen Yang,Tianyuan Zhao,Tianyuan Zhao,Wei Chen,Wei Chen,Yu Peng,Fuyang Cao,Chao Ning,Xiang Sui,Quanyi Guo,Quanyi Guo,Yunfeng Lin,Shuyun Liu +27 more
TL;DR: This is the first report to demonstrate that tFNAs can promote the chondrogenic differentiation of SMSCs in vitro and enhance AC regeneration in vivo, indicating that t FNAs may become a promising therapeutic for AC regeneration.
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