Orthopedic Biomechanics Researchers focused on the musculoskeletal system study the mechanical aspects of bones, joints, muscles, and connective tissues to better understand movement, load distribution, and injury mechanisms. They use advanced technologies such as motion analysis, computer modeling, and material testing to explore how the body functions during various activities. Their research aims to improve the design of implants, prosthetics, and rehabilitation protocols by providing deeper insights into how forces affect the human musculoskeletal system.
These researchers collaborate with clinicians, engineers, and therapists to translate their findings into practical applications that enhance patient outcomes. Their work helps develop innovative treatments and preventive strategies that reduce injury risks and improve mobility and function. Their research is essential for advancing knowledge that leads to safer, more effective medical devices and therapies. By continually pushing the boundaries of science, they contribute to the evolution of personalized and biomechanically sound treatments. Their dedication to studying movement mechanics supports the creation of solutions that optimize recovery and performance. Through ongoing experimentation and analysis, they drive innovation in musculoskeletal care. Their findings help inform surgical techniques and improve rehabilitation methods for faster patient recovery. They also play a vital role in designing equipment that enhances athletic performance while minimizing injury risks.
Title : A data driven approach to prehabilitation and rehabilitation for hip and knee replacement patients
Diana Hodgins, Dynamic Metrics Ltd, United Kingdom
Title : Selective denervation for persistent knee pain after total knee arthroplasty: Long-term outcomes
Shaomin Shi, Medical College of Wisconsin, United States
Title : The direct anterior approach to the hip in the lateral position: A New Zealand experience
Angus Wickham, Hawke’s Bay Hospital, New Zealand
Title : Functional outcomes of Distal Tibia Fractures (DTFs) treated With Minimally Invasive Percutaneous Plate Osteosynthesis (MIPPO)
Muhammad Mannan, University Hospital Birmingham, United Kingdom
Title : Efficacy of Platelet-Rich Plasma (PRP) in treating plantar fasciitis
Muhammad Mannan, University Hospital Birmingham, United Kingdom
Title : Management of femoral periprosthetic fractures: An institutional experience at a district general hospital
Muhammad Muneeb Safdar, Musgrove Park Hospital, United Kingdom