Scientific Sessions

Minimally invasive and robotic-assisted surgeries have transformed orthopedic care by offering precision, safety, and faster recovery for patients. Minimally invasive techniques, such as arthroscopy and small-incision joint replacements, reduce tissue damage, minimize scarring, and shorten hospital stays. These procedures allow surgeons to access joints and bones with specialized instruments and cameras, improving visualization while decreasing postoperative pain and rehabilitation time. Patients benefit from quicker mobility, lower infection risk, and a faster return to daily activities, making these approaches increasingly preferred for treating conditions like torn ligaments, meniscus injuries, and early-stage osteoarthritis.

Robotic-assisted surgeries take this innovation further by combining advanced imaging, computer planning, and robotic arms to enhance surgical accuracy. In procedures like total knee or hip replacements, robots assist surgeons in aligning implants with millimeter-level precision, optimizing joint function and durability. Patient-specific instrumentation, guided by 3D models, ensures better fit and reduces complications. Moreover, robotic systems allow for real-time adjustments during surgery, improving outcomes and long-term joint performance. Together, minimally invasive and robotic-assisted orthopedic surgeries exemplify the shift toward precision medicine, where personalized, less traumatic interventions provide superior recovery, reduced complications, and a better quality of life for patients.