1 / 6

Robotic Surgery in Chennai

Robotic Surgery in Chennai is transforming the way complex procedures are performed, ensuring higher precision and quicker recovery times. Patients seeking advanced orthopedic solutions are now opting for innovations like Knee Replacement using robotic-assisted techniques, which offer improved alignment and reduced post-operative pain. With state-of-the-art infrastructure and expert surgeons trained in robotic methods, Chennai is emerging as a hub for high-tech surgical care.

Knee3
Download Presentation

Robotic Surgery in Chennai

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Robo?c Surgery in Chennai Robo?c knee replacement, also known as robo?c-assisted total knee arthroplasty, marks a major leap forward in trea?ng serious knee issues. Leveraging cu?ng-edge robo?c systems, this innova?ve surgical method enhances precision, minimizes ?ssue trauma, and o?en delivers superior outcomes compared to tradi?onal knee replacement techniques. In ci?es like Chennai, India, this technology is revolu?onizing the way orthopedic surgeons approach knee joint reconstruc?on, offering hope to countless individuals struggling with debilita?ng knee pain and mobility problems. What Is Robo?c Knee Replacement? Robo?c knee replacement blends advanced robo?cs with classic surgical exper?se. The procedure begins with detailed imaging o?en CT scans to create a precise 3D model of the pa?ent’s knee. Using this model, the surgeon plans the implant size, alignment, and posi?oning with exact measurements. During surgery, small incisions allow a robo?c arm to assist the surgeon in removing damaged bone and car?lage. Guided in real ?me, the robot ensures the new implant sits in perfect alignment. This tailored approach respects each pa?ent’s unique anatomy, reducing ?ssue damage and streamlining recovery. Who Is a Candidate? Individuals who may benefit from robo?c knee replacement typically include those with: Severe osteoarthri?s or rheumatoid arthri?s, causing joint deteriora?on

  2. Chronic knee pain that hinders daily life and doesn’t respond to conserva?ve treatments Knee deformi?es, including alignment issues or uneven wear Failed previous knee surgeries, where conven?onal replacements haven’t succeeded A thorough evalua?onin cluding imaging, medical exam, and clinical review is essen?al. This ensures the pa?ent’s condi?on, overall health, and lifestyle goals align with the benefits of robo?c surgery. Why Choose Robo?c Over Tradi?onal Surgery? 1. Enhanced Precision Robo?c guidance allows for millimeter-level accuracy in implant placement. By precisely preparing the bone and posi?oning the prosthesis, misalignment is minimized, reducing the risk of premature wear and implant loosening. 2. Custom-Tailored Approach Preopera?ve imaging and surgical planning create a bespoke blueprint for surgery. Every implant component is posi?oned based on the pa?ent’s anatomy, improving comfort and joint func?on post-surgery. 3. Minimally Invasive Compared to conven?onal open procedures, smaller incisions and precise bone cuts mean less ?ssue trauma, reduced postopera?ve pain, and a faster rehabilita?on journey. 4. Be?er Func?onal Outcomes Studies have shown that accurate implant alignment correlates with be?er knee movement, increased stability, and improved long-term

  3. func?on. Many pa?ents report smoother gait, enhanced mobility, and less discomfort. 5. Greater Pa?ent Sa?sfac?on With be?er joint mechanics, reduced pain, and quicker recovery, pa?ent sa?sfac?on tends to be higher. A well-aligned knee implant can drama?cally improve quality of life allowing for more ac?ve and comfortable movement. Poten?al Risks and Drawbacks No surgery is without risk, and robo?c knee replacement does carry poten?al downsides: Infec?on: A surgical procedure risk; proper care and an?bio?cs mi?gate it. Blood Clots: Preven?ve measures include early mobiliza?on and possibly blood thinners. Implant Loosening or Failure: Rare, especially with precise alignment and quality materials. Nerve or Vessel Damage: Minimally invasive technique helps reduce this risk. Allergic Reac?ons: Possible for some implant materials; preopera?ve assessment helps iden?fy sensi?ve individuals. Cost & Availability: Robo?c systems come with higher costs, and not all hospitals have the technology. Surgical Learning Curve: Surgeons require training; early cases may take longer as exper?se develops. It’s important to discuss these factors with your surgeon, weighing them carefully against the benefits.

  4. The Procedure Explained Preopera?ve Planning 1.Imaging & Modeling: CT scans or MRIs generate a 3D image of the knee. 2.Blueprint Development: Surgeons plan bone cuts, implant sizes, and alignment precisely. 3.Final Prep: Pa?ents receive guidance on medica?ons, fas?ng, and logis?c support. Opera?ng Day 1.Anesthesia: General or spinal anesthesia is administered. 2.Robo?c Naviga?on Setup: The surgeon registers anatomical landmarks into the robo?c system. 3.Guided Cuts & Fi?ng: The robo?c arm assists in planned bone resec?ons. 4.Implant Placement: The custom prosthesis is inserted with exact guidance. 5.Closure: Small incisions are closed and dressed systema?cally. Postopera?ve Care Recovery Room: Pa?ents are monitored while anesthesia wears off; pain is managed proac?vely. Ini?al Therapy: Gentle leg movement and guided exercises begin early. Monitoring & Support: Nurses and physiotherapists oversee early recovery and address any concerns.

  5. Recovery Journey Immediate Post-Op (Day 1–7) Pain Management: Medica?on and early movement control discomfort. Therapy Start: Focus on gentle range-of-mo?on exercises. Mobility Boost: Use of walkers or crutches begins. Short Term (Weeks 2–6) Structured Physical Therapy: Progressive strengthening and flexibility rou?nes. Gradual Increase: Walking distances grow, daily ac?vi?es resume. Check-ups: Rou?ne visits to assess wound healing and implant posi?oning. Long Term (Months 3–12) Exercise Con?nua?on: Strength, balance, and range-of-mo?on work con?nue. Lifestyle Resume: Return to low-impact exercise, moderate walking, and daily rou?nes. Implant Monitoring: Occasional X-rays confirm stable placement. Returning to high-impact ac?vi?es like running or jumping may be discouraged; surgeons typically advise maintaining joint longevity through low-stress ac?vi?es like swimming, cycling, or yoga. Conclusion Robo?c knee replacement represents a significant leap in orthopedic innova?on, blending personalized surgical planning, robo?c

  6. precision, and minimally invasive techniques. For pa?ents grappling with debilita?ng knee arthri?s, chronic pain, or failed prior surgeries, this approach offers improved implant alignment, reduced pain, a faster path to mobility, and higher long-term sa?sfac?on. While higher costs and limited availability remain considera?ons, the poten?al for a be?er-aligned prosthesis, reduced complica?on risk, and a more efficient recovery make it a compelling op?on. With no strict age constraints and applicability across a broad range of knee condi?ons, it’s a future-focused solu?on for a wide demographic. Read Also : h?ps://kneereplacement.hospital/best-spine-doctor-in- chennai/

More Related