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Advanced total hip replacement designed to relieve pain, restore mobility, and improve quality of life by replacing the damaged hip joint with a durable, high-performance implant for long-term results.
Book ConsultationRobotic Hip Replacement is an advanced surgical procedure that uses robotic assistance to improve accuracy in implant positioning and joint alignment. The system creates a personalised surgical plan based on your hip anatomy, helping achieve better precision and long-term outcomes compared to conventional techniques.
During the procedure, the robotic system assists the surgeon in preparing the bone and placing the implant with high accuracy. This results in improved joint stability, reduced risk of complications, better implant longevity, and a smoother recovery experience.
Robotic-assisted hip replacement improves surgical precision, enhances joint stability, and delivers better long-term outcomes compared to conventional techniques.
Robotic systems ensure precise placement of hip implants, improving joint alignment and reducing complications.
Better alignment and positioning reduce the risk of hip dislocation and improve joint stability.
Minimally invasive robotic techniques help preserve surrounding muscles and soft tissues.
Patients experience quicker rehabilitation and earlier return to normal activities.
Precise surgery leads to less inflammation and improved patient comfort after surgery.
Accurate positioning reduces wear and extends the lifespan of hip implants.
Understanding the difference helps patients make informed decisions about precision, recovery, and long-term outcomes.
| Aspect | Robotic Hip Replacement | Conventional Hip Replacement |
|---|---|---|
| Planning | Personalised 3D surgical planning based on patient anatomy | Standard planning based on X-rays and manual assessment |
| Accuracy | High precision implant positioning using robotic assistance | Manual placement based on surgeon experience |
| Implant Alignment | Optimised cup and stem positioning for better joint stability | Possible variation in alignment |
| Tissue Impact | Minimally invasive with reduced muscle and soft tissue damage | More tissue disruption during surgery |
| Safety | Enhanced safety with real-time monitoring and controlled precision | Depends on manual technique with limited real-time feedback |
| Recovery | Faster recovery with early walking and less pain | Relatively longer recovery period |
| Dislocation Risk | Lower risk due to accurate implant positioning | Higher risk due to alignment variability |
| Outcomes | Better joint stability and long-term implant performance | Good outcomes but with higher variability |
Best Robotic Hip Replacement Surgery In Bangalore
CORI Robotic Knee Replacement in Bangalore – Precision. Faster Recovery. Better Outcomes.
Ideal for advanced arthritis, this procedure replaces the entire knee joint using robotic precision for accurate implant alignment, improved function, and long-term durability.
Targets only the damaged portion of the knee, preserving healthy bone and ligaments. With CORI®, this minimally invasive approach results in faster recovery and more natural knee movement.
Uses advanced robotic guidance to ensure precise implant positioning, enhancing joint stability, reducing wear, and improving overall mobility after surgery.
Lasting Implant
Scan Required
Faster Recovery
Tissue Loss
A comparison between traditional pin-based systems and modern pinless technology.
OXINIUM™ implants are advanced zirconium-based metal alloy implants designed for hip and knee replacement. They offer superior strength, smooth movement, and long-term performance.
Designed for long-term performance, with many implants lasting up to 30 years in suitable patients.
Features a unique oxidized zirconium layer that enhances strength and surface performance.
Smoother than conventional cobalt chrome, helping reduce friction and improve joint movement.
Highly resistant to wear, reducing implant degradation over time.
May benefit patients with nickel sensitivity, depending on individual clinical conditions.
Provides smooth and natural joint articulation for improved comfort and mobility.
Combining robotic precision with advanced implant technology to deliver superior accuracy, improved mobility, and long-lasting outcomes.
Robotic-assisted precision ensures exact positioning for better joint performance.
Real-time data helps surgeons achieve optimal soft tissue balance.
OXINIUM™ offers superior wear resistance compared to traditional materials.
Each knee is tailored to the patient’s unique anatomy and movement.
Reduced wear leads to extended implant longevity and durability.
Minimally invasive precision supports quicker healing and mobility.
