The rapid evolution of emerging technologies in orthopedics is transforming patient care, surgical precision, and rehabilitation outcomes. Robotics-assisted surgery is enhancing accuracy in joint replacements and spinal procedures, minimizing complications and improving recovery times. 3D printing technology is revolutionizing implant design, allowing for patient-specific prosthetics and biodegradable scaffolds that promote natural bone regeneration. Artificial intelligence is being integrated into diagnostic imaging, aiding in early detection of musculoskeletal disorders and optimizing treatment planning. Additionally, wearable biosensors and smart implants are enabling real-time monitoring of joint health and post-surgical recovery, providing continuous data for personalized patient management. Advances in regenerative medicine, including stem cell therapy and gene editing, hold promise for repairing damaged cartilage and bone, potentially reducing the need for traditional implants. As technology continues to advance, these innovations are shaping the future of orthopedics, offering more precise, personalized, and effective musculoskeletal care.
Title : Knotless suture repair for chronic lateral ankle instability: A systematic review & single- arm meta-analysis
Hussein Jaber, University of Cambridge, United Kingdom
Title : The UK profemur recall and implant cobaltism
Stephen S Tower, University of Alaska Anchorage, United States
Title : The tomographic phenotype and the genotype of wormain bones
Ali Al Kaissi, National Ilizarov Medical Research Center for Traumatology and Orthopaedics, Russian Federation
Title : Total Knee Arthroplasty (TKA) in hemophilic arthropathy: Modern outcomes and perioperative strategies
Jack Russek, Touro University California, United States
Title : Musculoskeletal and orthopedic implications of Gender-Affirming Hormone Therapy (GAHT): A PRISMA-Guided systematic narrative review
Jack Russek, Touro University California, United States