Orthopaedic Biomechanics & implant; Application of 3D printing in orthopaedic;

2006 - 2009, Postdoctoral

Institute of Biomedical Manufacturing and Life Quality Engineering, Shanghai Jiao Tong University

2002 - 2006, Ph.D.

Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology

2013 - date, Associate Professor，Senior Engineer

Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences(SIAT) 

2011 - 2013, Assistant Professor

Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences(SIAT) 

2009 - 2010, Assistant Professor

Biomedical Engineering Program, School of Engineering, Sun Yat-sen University

1.       shenzhen science and technology program: Research on the key technology and clinical application of metal 3D printing for individual implant prosthesis (20170486)

2.       shenzhen science and technology program: Research and development of individualized fixed splint rapid prototyping system(20170649)

3.       shenzhen science and technology program: Key technology of 3D printing: Research on 3D modeling technology of controlled gradient porosity porous structure based on image guidance(JCYJ20150401150223635)

4.       National Natural Science Foundation of China: Modelling and simulation of biodegradable magnesium alloy corrosion process based on micro-structure and galvanic corrosion (31200722)

5.       National Natural Science Foundation of China (General Program): The research on prosthesis design based on Bone reconstruction & Long-term bone shape prediction (30470455)

6.       National Natural Science Foundation of China (Key Program): Chinese mechanical virtual human (30530230)

7.       National Natural Science Foundation of China (Major Program): Research on the properties of hip and knee joints and basic design of artificial joints for Asia Race (30810103908)

8.       National High Technology Research and Development Program of China (863 Program): The Key technique of Digital Virtual Chinese Human (2004AA231030)

[1]      Jiali Wang; Yuanhao Wu; Huafang Li; Yang Liu; Xueling Bai; Wingho Chau; Yufeng Zheng; Ling Qin. Magnesium Alloy based Interference Screw Developed for ACL Reconstruction Attenuates Peri-Tunnel Bone Loss in Rabbits, Biomaterials, 2018,157: 86-97.

[2]      Bai Xueling, Peng Ding, Zhang Peng, Yao Zhidong. Research on Modeling of Bionic Porous scaffold for bone defect repair based on Bone Mineral Density Distribution. CMSA2018, 2018.4.22

[3]      Yiping Hu, Tiantian Zhang, Huan Huang, Wenxiang Cheng, Yuxiao Lai, Xueling Bai, Jianhai Chen, Ye Yue, Zhengtan Zheng, Chengshan Guo, Ling Qin. Fracture healing in a collagen‐induced arthritis rat model: Radiology and histology evidence. Journal of Orthopaedic Research, https://doi.org/10.1002/jor.24060

[4]      Xueling Bai, Peng Shang, “The Biomechanics Analysis of Anatomical Morphology of Skeleton,” IEEE-EMBS International Conference on Biomedical and Health Informatics. 2012: 836-839

[5]      Shang Peng, Bai Xueling, “A Non-linear contact FE Model to Evaluate Pressure Ulcer on Buttock-thigh under Sitting,” IEEE-EMBS International Conference on Biomedical and Health Informatics. 2012: 748-751

[6]      Peng Shang*, Xueling Bai. An ultrasound approach to digitizie bony landmarks in navigation assisted total hip arthroplasty. The 2013 6th International Congress on Image and Signal Processing, 2013: 342-346

[7]      X. Ye, L. Zhang, Z. Xu, Z. Hou, X. Bai, and P. Shang, "Effect of Suture Density on the Dynamic Behavior of the Bioprosthetic Heart Valve: A Numerical Simulation Study," in Health Information Science. vol. 8423, Springer International Publishing, 2014, pp. 29-39.

[8]      X. Ye, L. Zhang, Z. Xu, Z. Hou, X. Bai, and P. Shang, "Numerical Evaluation of the Effectiveness of the Air Chamber of Shoes Pad for Diabetes with FE-SPH Method," in Health Information Science. vol. 8423, Springer International Publishing, 2014, pp. 20-28.

[9]      Shang Peng, Zhang Linan, Hou Zengtao, Bai Xueling, Ye Xin, Xu Zhaobin, Huang Xu. Morphometric measurement of the patella on 3D model reconstructed from CT scan images for the southern Chinese population. Chin Med J. 2014 , 127 (1) :96-101

[10]  Li-Nan Zhang, Zeng-Tao Hou, Xin Ye, Zhao-Bin Xu, Xue-Ling Bai, Peng Shang. The effect of selected alloying element additions on the properties of the Mg-based alloy as bioimplants: A literature review.Frontiers of materials science. 2013, 7(3): 227–236

[11]  Bai Xueling, Yu Li, Liu Qian, Zhang Jie, Li An’an, Han Dao, Luo Qingming, Gong Hui. A High-Resolution Anatomical Rat Atlas. J Anat., 2006, 209(5): 707-708.

[12]  Bai Xueling, Wei Gaofeng, Ye Ming, Wang Dongmei, Hu Yan, Liu Zongliang, Nie Wenzhong, Zhang Linlin, Ji Wenting, Li Yunting, Wang Chengtao. Finite Element Musculoskeletal Modeling of Mechanical Virtual Human of China. ICBBE 2008, 1847-1850.

[13]  Bai Xueling, Liu Qian, Yu Li, Liao Yinping, Luo Qingming, Gong Hui. The Development of Small Laboratory Animal Atlas, Conf Proc IEEE Eng Med Biol Soc., 2005, 2(1):1472-1475.

[14]  Bai Xueling, Zhang Xi’an, Wang Hongsheng, Ji Wenting, Wang Chengtao. Three-dimension Kinematics Simulation and Biomechanics Analysis of Snatch Technique. IACSS, SBSP 2008, 2008, 1: 291-296.

[15]  Bai Xueling, Shang Peng, Wang Chengtao. Distribution features of stress-strain, principle stress vectors and displacements of normal femur during gait. CRTER, 2010, 14(52): 9873-9876.

[16]  Wei Gaofeng, Bai Xueling, Wang Hongsheng, Fu Zengliang, Wang Chengtao. Component mode synthesis approach to estimate tibial strain. Journal of Medical Engineering and Technology, 2009, 33(6): 488-495. 

[17]  Yu Li, Liu Qian, Bai Xueling, Liao Yinping, Luo Qingming, Gong Hui. A Digital Rat Atlas of Sectional Anatomy. Fourth International Conference on Photonics and Imaging in Biology and Medicine, 2006, 6047:60470Y1-7.

[18]  Hu Kongzu, Zhang Xianlong, Zhu Junfeng, Wang Chengtao, Ji Wenting, Bai Xueling. Periprosthetic fractures may be more likely in cementless femoral stems with sharp edges. Ir J Med Sci, 2010, 179:417-421.

Software copyright:

[1]      2017SR479438(), Xueling Bai, 3D modeling software of Bionic Porous scaffold for bone defect repair based on Bone Mineral Density Distribution V1.0.

Invention patents:

[2]      201711239691.0, The establishment method, device and preparation system of 3D porous scaffold model

[3]      201610984684.2, Function training device and system for neck muscles

[4]      201410853395.X, Fibrous ring patch 

[5]      CN 102793594A, Artificial knee joint

[6]      CN 103190948A, Spinal internal fixation device

[7]      CN 102813565A, Artificial hip joint

[8]      CN102488574A, Intervertebral cage

Utility model patents:

[9]      CN 203576699 U, Patellar prosthesis structure

[10]  CN 203263590 U, Patella tissue engineering scaffold

[11]  CN 204318891U, Transpedicular placement guide

[12]  CN206549048 U, Function training device and system for neck muscles

[13]  CN203609546 U, Artificial hip joint structure

[14]  CN 204542325U, Fibrous ring patch

[15]  CN207253402 U, expansile lumbar fusion cage