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【主要岳的水深又滑又多方向】
1、生物力学与康复工程
2、航空航天医学工程
3、仿生技术与应用
Research Interests
1. Biomechanics &Rehabilitation Engineering
2. Aviation and Space Medical Engineering
3. Bionics Technology & Application
【主要社会兼职】
1、高端植介入医疗器械优化设计与评测技术北京市重点实验室主任
2、国防基础科研计划领域专家组召集人
3、中国民主促进会海淀区委副主委
4、海淀区第11届政协委员
【近年代表性科研项目】
1、神经外科手术机器人辅助内镜导航关键技术岳的水深又滑又多,北京海淀联合基金重点项目,2023.01-2026.12
2、机器人辅助脊柱矫形手术智能规划与精准操作关键技术岳的水深又滑又多,北京海淀联合基金重点项目,2021.01-2024.12
3、高原xxxx技术,基础科研重点项目,2022-2023
4、生长棒技术治疗早发性脊柱侧凸的生物力学机理岳的水深又滑又多(11972065),国家自然基金项目,2020-2023
5、猫科动物xxxx抗冲击机理,基础科研重点项目,2019-2020
6、生物原型表征xxxx优化设计,基础科研重点项目,2018-2020
7、腰椎融合联合Coflex系统术后邻近节段生物力学特性分析岳的水深又滑又多(81672201),国家自然基金项目,2017-2020
8、高过载xxxx安全防护,基础科研重点项目,2017-2019
【近年发表论文】
1) Pei B, Xu Y, Zhao Y, Wu X*, Lu D, Wang H and Wu S*. Biomechanical comparative analysis of conventional pedicle screws and cortical bone trajectory fixation in the lumbar spine: An in vitro and finite element study. Front. Bioeng. Biotechnol. 2023, 11:1060059.
2) Pei Baoqing; Guo Lei; Wu Xueqing*; Hu Mengyuan; Wu Shuqin*; Wang Yangwei. Impact Resistant Structure Design and Optimization Inspired by Turtle Carapace. Materials, 2022; 15(8):2899.
3) Pei B, Lu D, Wu X, Xu Y, Ma C and Wu S. Kinematic and biomechanical responses of the spine to distraction surgery in children with early onset scoliosis: A 3-D finite element analysis. Front. Bioeng. Biotechnol. 2022; 10:933341
4) Wang W, Kong C, Pan F, Wang W, Wu X, Pei B*, Lu S. Influence of Sagittal Lumbopelvic Morphotypes on the Range of Motion of Human Lumbar Spine: An In Vitro Cadaveric Study. Bioengineering. 2022; 9(5):224.
5) Pei Baoqing; Lu Da; Wu Xueqing*; Xu Yangyang; Ma Chenghao; Wu Shuqin*; Effects of Growing Rod Technique with Different Surgical Modes and Growth Phases on the Treatment Outcome of Early O nset Scoliosis: A 3-D Finite Element Analysis, International Journal of Environmental Research an d Public Health, 2022, 19(4): 1-16.
6) Wei Wang, Baoqing Pei*, Shuqin Wu*, Da Lu, Xueqing Wu,Biomechanical responses of human lumbar spine and pelvis according to the Roussoulyclassification. PLOS ONE. 2022, 17(7): 1-14
7) Yangyang Xu , Xiangyu Li, Yafei Chang, Baoqing Pei. Design of Personalized Cervical Fixation Orthosis Based on 3D Printing Technology. Applied Bionics and Biomechanics. 2022, https://doi.org/10.1155/2022/8243128
8) Yilin Xiao, Dayong Hu, Zhiqiang Zhang*, Baoqing Pei *, Xueqing Wu, Peng Lin; 3A 3D-Printed Sole Design Bioinspired by Cat Paw Pad and Triply Periodic Minimal Surface for Improving Paratrooper Landing Protection, Polymers,2022, https://doi.org/10.3390/polym14163270
9) Mincen Wan , Dayong Hu*, Baoqing Pei*; Performance of 3D-Printed Bionic Conch-Like Composite Plate under Low-Velocity Impact, Materials, 2022; https://doi.org/10.3390/ma15155201
10) Wei Wang, Chao Kong, Fumin Pan, Yu Wang, Xueqing Wu, Baoqing Pei*, Shibao Lu*; Biomechanical comparative analysis of effects of dynamic and rigid fusion on lumbar motion with different sagittal parameters: An in vitro study, Front. Bioeng. Biotechnol. 2022; 10:943092
11) Ji Wang, Dayong Hu, Zhiqiang Zhang*, Baoqing Pei*, Rongkai Xu, Xueqing Wu; Anti-impact performance of bionic tortoiseshell-like composites, Composite Structures, 2022, 116315
12) Da Lu, Xueqing Wu, Wei Wang, Chenghao Ma, Baoqing Pei*, Wu Shuqin*. Synthesis and Application of Iron Oxide Nanoparticles in Bone Tissue Repair. Journal of Nanomaterials, 2021, 2021:1-14.
13) Wei He; Guangxiu Cao; Xueping Gan; Yubo Fan; Baoqing Pei; Xiaoming Li. Evaluation methods for mechanicalbiocompatibility of hernia repair meshes:respective characteristics, application scope andfuture perspectives[J].Journal of materials research and technology,2021;13:1826-1840
14) Xueqing Wu; Baoqing Pei; Wei Wang; Da Lu ; Lei Guo; Peiyan He. Finite Element Analysis of a Novel Approach for Knee andAnkle Protection during Landing[J]. Appl. Sci. 2021, 11, 1912-1924
15) Xueqing Wu; Baoqing Pei; Wei Wang; Yan Hao; Kaiyuan Zhou. How do Cats Resist Landing Injury: Insights into the Multi-level Buffering Mechanism [J]. J Bionic Eng. 2020.17. 600–610
16) Wei Wang; Baoqing Pei; Hui Li; Zhenpeng Shi; Xueqing Wu; Nan Wu; Yan Hao; Yubo Fan. Biomechanical Effect of Over Lordotic Curvature After Spinal Fusion on the Adjacent Intervertebral Disc Under a Continuous Compressive Load [J]. Clinical Biomechanics.2020.73.149-156
17) Baoqing Pei; Wei Wang; Nicholas Dunne; Xiaoming Li; Applications of Carbon Nanotubes in Bone Tissue Regeneration and Engineering: Superiority, Concerns, Current Advancements and Prospects[J]. Nanomaterials. 2019.10. DOI: 10.3390/nano9101501
18) WuXueqing; PeiBaoqing*; PeiYuyang; WuNan; WangWei; ZhouKaiyuan; HaoYan. Contributions of limb joints to energy absorption during landing in cats [J]. Applied Bionics and Biomechanics. 2019.08. DOI:10.1155/2019/3815612
19) Wu Xueqing; Pei Baoqing*; Pei Yuyang; Wang Wei; Hao Yan; Zhou Kaiyuan. Comprehensive biomechanism of impact resistance in the cat’s paw pad [J]. Biomed Research International. 2019.07. DOI: 10.1155/2019/2183712
20) Wei Wang; Baoqing Pei*; Pei Yuyang; Zhenpeng Shi; Chao Kong; Xueqing Wu; Nan Wu; Yubo Fan; Shibao Lu. Biomechanical effects of Posterior Pedicle Fixation Techniques on the adjacent segment for the Treatment of Thoracolumbar Burst Fractures: a biomechanical analysis [J]. Computer Methods in Biomechanics and Biomedical.2019.22(13):1083-1092
21) 肖宝红,裴葆青,吴楠. 基于运动控制器的载人离心机控制系统设计[J]. 航天医学与医学工程,2018,Vol.31(1),32-36
22) 吴楠,裴葆青,王唯,师振鹏. 后路椎间融合术后全腰椎模态分析[J]. 医用生物力学,2018,Vol.33(4),320-325
23) Baoqing Pei, Wei Wang, Yubo Fan, et al. Fiber-reinforced scaffolds in soft tissue engineering, Regenerative Biomaterials, 2017, 257–268
24) Pei BQ, Zhu G, Wang Y,et al. The development and error analysis of a kinematic parameters based spatial positioning method for an orthopedic navigation robot system. Int J Med Robotics Comput Assist Surg. 2017; 13:e1782.
25) 裴葆青,师振鹏,王唯等. 后路固定术治疗胸腰椎爆裂骨折的生物力学岳的水深又滑又多[J]. 中国生物医学工程学报,Vol36(6),2017.6. 718-723
26) 裴葆青,刘振瑶,王唯,师振鹏.融合术后压缩载荷下腰椎粘弹性的岳的水深又滑又多[J].福建师范大学学报:自然岳的水深又滑又多版,2017(4):52-58.
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