基本情况:李宇晟,男,1984年4月,籍贯湖南省长沙市,汉族,中共党员,医学博士、博士生导师、硕士生导师(中南大学、吉首大学)、副主任医师。2008年毕业于中南大学湘雅医学院,2011年获中南大学湘雅医院骨科博士毕业证和学位证。现任中南大学湘雅医院研究生部主任、湖南省关节外科临床医学研究中心副主任,兼任中国医师协会骨科学分会基础学组委员、中国研究型医院学会运动医疗专业委员会委员、中国中西医结合学会骨伤科分会科普学组副组长,湖南省医学会骨科学专业委员会秘书、湖南省医学会运动医疗专业委员会青年委员会副主任委员。主要从事运动系统退行性疾病及损伤的诊治,擅长关节镜微创手术和人工关节置换。近5年,以第一作者或通讯作者(含并列)在Advanced Functional Materials (IF=19.0)、Nano Energy (IF=17.6)、ACS Nano (IF=17.1)、Advanced Science (IF=15.1)、Bone Research (IF=12.7)等高水平期刊发表论文66篇,其中ESI高被引论文3篇,影响因子10分以上20篇,H指数36,被Nature Reviews Materials、Nature Reviews Rheumatology等国际有影响力杂志正面他引520次。主持国家自然科学基金4项(含重大研究计划培育项目1项)、以项目骨干身份参与国家重点研发计划2项,获湖南省杰出青年基金、湖湘青年英才、湖南省卫生高层次人才等省级人才称号5项;授权国家发明专利10项(已完成科技成果转化1项,转让金额38350万元);获得教育部高等学校科学研究优秀成果奖一等奖、华夏医学科技奖一等奖、湖南省科技进步奖二等奖等科技成果奖7项。主编骨科专著2部,副主编2部,参编英文专著2部,主译骨科学经典著作4部;参与制定《中国骨关节炎诊疗指南》、《中国髌股关节骨关节炎诊疗指南》等在内的中华医学会临床指南和专家共识5部。
联系方式:liyusheng@csu.edu.cn
代表性论文(近5年):(按照文献引用格式填入)
1、Wang, C., Qu, X., Zheng, Q., Liu, Y., Tan, P., Shi, B., Ouyang, H., Chao, S., Zou, Y., Zhao, C., Liu, Z., Li, Y., & Li, Z. (2021). Stretchable, Self-Healing, and Skin-Mounted Active Sensor for Multipoint Muscle Function Assessment. ACS nano, 15(6), 10130–10140.https://doi.org/10.1021/acsnano.1c02010
2、Luo, J., Li, Y., He, M., Wang, Z., Li, C., Liu, D., An, J., Xie, W., He, Y., Xiao, W., Li, Z., Wang, Z. L., & Tang, W. (2022). Rehabilitation of Total Knee Arthroplasty by Integrating Conjoint Isometric Myodynamia and Real-Time Rotation Sensing System. Advanced science (Weinheim, Baden-Wurttemberg, Germany), 9(8), e2105219.https://doi.org/10.1002/advs.202105219
3、Yu, D., Nie, Q., Xue, J., Luo, R., Xie, S., Chao, S., Wang, E., Xu, L., Shan, Y., Liu, Z., Li, Y., & Li, Z. (2023). Direct Mapping of Cytomechanical Homeostasis Destruction in Osteoarthritis Based on Silicon Nanopillar Array. Advanced healthcare materials, 12(32), e2301126.https://doi.org/10.1002/adhm.202301126
4、Wang, S., Lu, M., Wang, W., Yu, S., Yu, R., Cai, C., Li, Y., Shi, Z., Zou, J., He, M., Xie, W., Yu, D., Jin, H., Li, H., Xiao, W., Fan, C., Wu, F., Li, Y., & Liu, S. (2022). Macrophage Polarization Modulated by NF-κB in Polylactide Membranes-Treated Peritendinous Adhesion. Small (Weinheim an der Bergstrasse, Germany), 18(13), e2104112.https://doi.org/10.1002/smll.202104112
5、Cai, C. D., Wang, W., Liang, J., Li, Y. G., Lu, M. K., Cui, W. G., Fan, C. Y., Deng, L. F., Li, Y. S., Wang, F., & Liu, S. (2021). MMP-2 Responsive Unidirectional Hydrogel-Electrospun Patch Loading TGF-β1 siRNA Polyplexes for Peritendinous Anti-Adhesion. Advanced Functional Materials, 31(6), 14, Article 2008364.https://doi.org/10.1002/adfm.202008364
6、Tang, P., Wen, T., Lu, W., Jin, H., Pan, L., Li, H., Zeng, B., Zhou, Y., Xiao, W., & Li, Y. (2024). The efficacy of extracorporeal shock wave therapy for knee osteoarthritis : an umbrella review. International journal of surgery (London, England), 110(4), 2389–2395.https://doi.org/10.1097/JS9.0000000000001116
7、Guo, B., Wang, C., Zhu, Y., Liu, Z., Long, H., Ruan, Z., Lin, Z., Fan, Z., Li, Y., & Zhao, S. (2023). Causal associations of brain structure with bone mineral density: a large-scale genetic correlation study. Bone research, 11(1), 37.https://doi.org/10.1038/s41413-023-00270-z
8、Li, Y., Wang, X., Hu, B., Sun, Q., Wan, M., Carr, A., Liu, S., & Cao, X. (2023). Neutralization of excessive levels of active TGF-β1 reduces MSC recruitment and differentiation to mitigate peritendinous adhesion. Bone research, 11(1), 24.https://doi.org/10.1038/s41413-023-00252-1
9、Yu, D. J., Li, Z., Xie, W. Q., Li, D. S., Li, Z., & Li, Y. S. (2022). Applications of nanogenerator-based wearable devices in orthopedics. Nano Energy, 103, 23, Article 107762.https://doi.org/10.1016/j.nanoen.2022.107762
10、Yang, L., Li, C., Lu, W., An, J., Liu, D., Luo, J., Li, Y., Wang, Z. L., Tang, W., & Meng, B. (2023). High-Precision Wearable Displacement Sensing System for Clinical Diagnosis of Anterior Cruciate Ligament Tears. ACS nano, 17(6), 5686–5694. https://doi.org/10.1021/acsnano.2c11996