Prof. Gaoxiang Xu | Medical Diagnostics | Best Researcher Award
Work Experience 💼:
Dr. Xu began his medical career in 2023 at The Orthopaedics Department of The First Affiliated Hospital of Zhengzhou University. Here, he conducts cutting-edge research and provides surgical care, specializing in nanotechnology applications for orthopaedics. His role involves diagnosing and treating complex orthopaedic conditions, leveraging AI and big data analytics. Dr. Xu’s collaborations with various prestigious institutions underscore his commitment to advancing medical innovation and improving patient outcomes. 🏥🔧
Awards and Honors
Dr. Xu’s contributions have earned him recognition for innovation in orthopaedic research. While specific awards are not listed, his groundbreaking work is evident in the acceptance of patents and publications in prestigious journals like Advanced Science. His reputation as a thought leader in biosensing and nanomedicine continues to grow through his collaborative projects and impactful advancements in medical technology. 🏆🎖️
Research Interests:
Dr. Xu focuses on advancing orthopaedic diagnosis and treatment using biosensing and nanomaterials. His research integrates dual fluorescent nanomaterials, AI, and big data analytics to improve diagnostic accuracy and therapeutic outcomes. Dr. Xu’s innovations aim to address osteoarthritis and joint infections, particularly in cases involving orthopaedic prostheses. He emphasizes precision medicine and the development of functional reconstruction technologies to transform patient care. 🔬🤖
📚 Publication
Accurately Tunable AuNC-ZIF Content Architecture Based on Coordination-Dissociation Mechanism Enables Highly Brightness Dual-Site Fluorescent Biosensor
Authors: Chen, J., Wang, Y., Shen, R., Cui, H., Li, Z.
Citations: 0
Year: 2024
Journal: Advanced Science
Clinical outcomes of negative pressure wound therapy with instillation vs standard negative pressure wound therapy for wounds: A meta-analysis of randomised controlled trials
Authors: Wang, G., Xu, H., Xu, G., Li, Z., Liu, D.
Citations: 4
Year: 2023
Journal: International Wound Journal
Does computer-assisted orthopaedics system (ADAPT system) improve outcomes of intertrochanteric hip fractures?
Authors: Li, H., Wang, D., Zhang, W., Li, J., Tang, P.
Citations: 2
Year: 2023
Journal: Injury
Finite element analysis of different medial fixation strategies in double-plate osteosynthesis for AO type 33-C2 Femoral fractures
Authors: Li, M., Jiang, Y., Wang, J., Li, J., Zhang, W.
Citations: 0
Year: 2023
Journal: Injury
Potential side effects of antibacterial coatings in orthopaedic implants: A systematic review of clinical studies
Authors: Li, H., Wang, D., Zhang, W., Liu, W., Li, J.
Citations: 4
Year: 2023
Journal: Frontiers in Bioengineering and Biotechnology
The Global Research Status and Trends in Ice and Snow Sports Injuries from 1995 to 2022: A Bibliometric and Visualized Analysis
Authors: Zhang, W., Li, H., Wang, D., Zhang, L., Tang, P.
Citations: 3
Year: 2023
Journal: International Journal of Environmental Research and Public Health
Correction to: Morphometric feature description of the proximal ulna based on quantitative measurement: a key consideration for implant design (Surgical and Radiologic Anatomy, (2022), 45, 2, (215-224), 10.1007/s00276-022-03058-8)
Authors: Wang, D., Li, J., Xu, G., Li, L., Tang, P.
Citations: 1
Year: 2023
Journal: Surgical and Radiologic Anatomy
Morphometric feature description of the proximal ulna based on quantitative measurement: a key consideration for implant design
Authors: Wang, D., Li, J., Xu, G., Li, L., Tang, P.
Citations: 10
Year: 2023
Journal: Surgical and Radiologic Anatomy
Prediction of osteoporosis from proximal femoral cortical bone thickness and Hounsfield unit value with clinical significance
Authors: Xu, G., Wang, D., Zhang, H., Zhang, L., Tang, P.
Citations: 5
Year: 2023
Journal: Frontiers in Surgery
Cervical Spine Fractures and Dislocations
Authors: Zhao, Z., Zhang, L., Sun, Y., Xu, G.
Citations: 0
Year: 2023
Journal: Orthopaedic Trauma Surgery: Volume 3: Axial Skeleton Fractures and Nonunion
Conclusion