Robotic knee replacement is an advanced surgical procedure that enhances precision, improves outcomes, and accelerates recovery compared to traditional knee replacement surgery. This technology assists surgeons in planning and executing knee replacement with high accuracy, leading to better implant positioning and longevity.
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A detailed 3D model of the patient’s knee is created using CT scans.
The surgeon plans the procedure based on this model for optimal alignment.
The robotic system guides the surgeon during bone cutting and implant positioning.
Sub-millimeter precision ensures minimal damage to surrounding tissues.
Ensures proper fit, alignment, and balance for natural movement.
Greater Precision & Accuracy – Reduces human error in implant positioning.
Minimally Invasive – Smaller incisions mean less blood loss and faster healing.
Less Pain & Faster Recovery – Reduced tissue damage leads to a quicker return to daily activities.
Improved Implant Longevity – Optimal alignment reduces wear and tear, increasing implant lifespan.
Reduced Risk of Complications – Lower chances of infections, blood clots, and nerve damage.
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Patients with severe knee osteoarthritis or joint degeneration.
Those who experience chronic pain, stiffness, or difficulty in walking.
People who have tried non-surgical treatments (medication, physiotherapy) without success.
