Robotic Surgery & Trauma Centre
The Region's Most Advanced Active Robotic Joint Replacement System β Delivering Sub-Millimeter Precision & Natural Motion.
Active robotic joint surgery represents the highest frontier of modern joint reconstruction. Unlike passive or semi-active robotic guides which merely provide visual assistance, **Goyal Hospital's fully active surgical robotic system actively participates in performing precise bone cuts** under the real-time supervision of our senior surgeons.
This high-performance system prevents human deviation. By integrating advanced 3D anatomical planning with automated precision, the robot ensures your artificial joint is fitted with absolute alignment, maximizing dynamic stability and allowing you to walk naturally, free from chronic stiffness.
Passive systems only show navigation lines, leaving the physical cuts completely to human hand alignment. Our active system executes the cuts with robotic consistency, stopping immediately if the patient moves even a fraction of a millimeter.
A seamless transition from detailed preoperative diagnostics to precise operating theatre execution.
We capture detailed CT slices of your joint. Our software converts these images into a high-fidelity 3D virtual model, capturing your specific bone curvature and alignment geometry.
Before the surgical incision is made, our surgeon plays out the procedure on screen, selecting the exact implant dimensions and positioning it virtually for natural ligament tension.
Under the surgeonβs direct command, the active robotic arm executes sub-millimeter bone preparation. Virtual safety boundaries shield adjacent soft tissues from any accidental cuts.
See how active robotic surgery outperforms traditional manual methods across key clinical benchmarks.
| Surgical Variable | Traditional Manual Surgery | Fully Active Robotic Surgery |
|---|---|---|
| Bone Cut Accuracy | Manual alignment using mechanical jigs (Error margin: Β±2mm to 3mm) | Sub-millimeter accuracy (<0.5mm deviation) |
| Implant Fit & Alignment | Relies on surgeon visual estimation; subject to manual errors | Perfectly customized to virtual 3D CT mapping |
| Soft Tissue Damage | Higher risk due to manual retraction and mechanical instruments | Near-zero risk; robotic arm respects virtual limits |
| Post-Operative Recovery | Patient walks in 3-5 days; hospital stay of 6-8 days | Patient walks in 24 hours; discharge in 2-3 days |
| Post-Surgical Pain | Significant; requires heavy post-op pain management | Minimal; smaller incisions and lower tissue bruising |
| Implant Life Expectancy | 15 β 20 years due to unbalanced manual joint friction | 25 β 30+ years; perfectly balanced joint wear |
Book a diagnostic consultation with Dr. Aman Goyal to assess your joint suitability for active robotic replacement.
Book Your Robotic Consultation β