J
Junjie Gao
Researcher at Shanghai Jiao Tong University
Publications - 53
Citations - 1471
Junjie Gao is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Medicine & Biology. The author has an hindex of 12, co-authored 27 publications receiving 728 citations. Previous affiliations of Junjie Gao include University of Western Australia.
Papers
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Journal ArticleDOI
Subchondral bone in osteoarthritis: insight into risk factors and microstructural changes
Guangyi Li,Guangyi Li,Ji-Min Yin,Junjie Gao,Tak Sum Cheng,Nathan J. Pavlos,Changqing Zhang,Ming H. Zheng +7 more
TL;DR: Basic features of the osteochondral junction, which comprises subchondral bone and articular cartilage, are summarized and a hypothetical model for the pathogenesis of OA is proposed.
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Intercellular mitochondrial transfer as a means of tissue revitalization
Delin Liu,You-Shui Gao,You-Shui Gao,Jiao Liu,Yigang Huang,Yigang Huang,Junhui Yin,Yuyao Feng,Linjing Shi,Bruno P. Meloni,Changqing Zhang,Minghao Zheng,Junjie Gao,Junjie Gao +13 more
TL;DR: In this paper, a review of the phenomenon of mitochondrial transfer is described according to its function under both physiological and pathological conditions, including tissue homeostasis, damaged tissue repair, tumor progression, and immunoregulation.
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Engineering 2D Mesoporous Silica@MXene-Integrated 3D-Printing Scaffolds for Combinatory Osteosarcoma Therapy and NO-Augmented Bone Regeneration
Qianhao Yang,Haohao Yin,Tianming Xu,Daoyu Zhu,Junhui Yin,Yixuan Chen,Xiaowei Yu,Junjie Gao,Changqing Zhang,Yu Chen,You-Shui Gao +10 more
TL;DR: The design of multifunctional scaffolds with the specific features of controllable NO release, highly efficient photothermal conversion, and stimulatory bone regeneration provides an intriguing biomaterial platform for the diversified treatment of bone tumors.
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Exosomes-the enigmatic regulators of bone homeostasis.
Minhao Gao,Weiyang Gao,John M. Papadimitriou,Changqing Zhang,Junjie Gao,Junjie Gao,Minghao Zheng +6 more
TL;DR: A better understanding of the role of exosomes in bone homeostasis will unlock their significant clinical potential, as well as their therapeutic potential in bone injury.
Journal ArticleDOI
Nb2C MXene-Functionalized Scaffolds Enables Osteosarcoma Phototherapy and Angiogenesis/Osteogenesis of Bone Defects.
Junhui Yin,Shanshan Pan,Xiang Guo,You-Shui Gao,Daoyu Zhu,Qianhao Yang,Junjie Gao,Changqing Zhang,Yu Chen +8 more
TL;DR: In this paper, a rational integration of photonic-responsive two-dimensional (2D) ultrathin niobium carbide nanosheets (NSs) into the 3D-printed bone-mimetic scaffolds (NBGS) for osteosarcoma treatment is reported.