Advanced Training On Robotic Direct Anterior Approach (DAA) For Mako Robotic Total Hip Replacement

After his initial training on Direct Anterior Approach (DAA) in Robotic Total Hip Replacement from Portsmouth, US, Dr. Narayan Hulse has undergone an Advanced Training On Robotic Direct Anterior Approach (DAA) For Mako Robotic Total Hip Replacement from Dr. Sean D Toomey MD, Seattle, US. Dr. Toomey is one of the pioneers in adopting DAA for THRs in the world.

It is significant to note that Dr. Narayan Hulse is the first surgeon in India to perform Robotic Total Hip Replacement using Direct Anterior Approach (DAA).

Revolutionizing Orthopedics: Mako Robotic Knee Replacement in Gurgaon

Introduction:

In recent years, the field of orthopedic surgery has witnessed a remarkable technological advancement with the introduction of Mako Robotic Knee Replacement. This cutting-edge technology has revolutionized the way knee replacement surgeries are performed, offering unparalleled precision and improved patient outcomes. In this blog post, we will delve into the world of Mako Robotic Knee Replacement in Gurgaon, exploring its benefits, the expertise of robotic knee surgeons in Gurgaon, and its impact on orthopedic surgery in India.

Section 1: Understanding Mako Robotic Knee Replacement

Mako Robotic Knee Replacement is an innovative surgical system that combines robotic technology with the skill of orthopedic surgeons. This advanced system utilizes a 3D virtual model of the patient's knee, allowing the surgeon to create a personalized surgical plan with utmost accuracy. The robotic arm then assists the surgeon in executing the plan with remarkable precision, thus optimizing implant placement and alignment.

Section 2: Expert Robotic Knee Surgeons in Gurgaon

Gurgaon, known for its world-class healthcare facilities, is home to highly skilled robotic knee surgeons. These surgeons possess extensive experience and expertise in performing Mako Robotic Knee Replacement surgeries. Their proficiency in utilizing this advanced technology ensures superior surgical precision, resulting in improved patient outcomes and faster recovery times. If you are seeking a robotic knee surgeon in Gurgaon, you can trust the expertise of these professionals to provide you with the highest level of care.

Section 3: The Advantages of Robotic Hip Replacement

While Mako Robotic Knee Replacement is a game-changer in orthopedics, it is worth mentioning that the technology is not limited to knee surgeries alone. Robotic hip replacement surgeries have also witnessed tremendous success in Gurgaon and across India. With the assistance of Mako Robotic technology, hip surgeons in Gurgaon can achieve enhanced accuracy during hip replacement procedures, leading to improved implant positioning, better stability, and reduced risk of complications.

Section 4: Impact of Mako Robotic Knee Replacement in India

The introduction of Mako Robotic Knee Replacement in India has significantly transformed the landscape of orthopedic surgery. Patients now have access to state-of-the-art technology that offers unprecedented precision and personalized treatment options. Robotic knee and hip replacement surgeries have gained immense popularity among patients seeking long-lasting pain relief and improved mobility. With robotic knee surgeons in Gurgaon and other cities embracing this technology, the future of orthopedics in India looks promising.

Conclusion:

Mako Robotic Knee Replacement has emerged as a game-changer in the field of orthopedic surgery, and its impact in Gurgaon and across India is undeniable. With highly skilled robotic knee surgeons in Gurgaon utilizing this advanced technology, patients can now benefit from improved surgical precision, faster recovery times, and enhanced overall outcomes. Whether it's knee or hip replacement, Mako Robotic technology has ushered in a new era of orthopedic excellence, providing patients with renewed hope for a pain-free and active lifestyle.

Revolutionizing Recovery: The Latest Advances in Orthopedic Surgery

Orthopedic surgery has undergone remarkable transformation over the past few decades, offering patients faster recovery times, enhanced outcomes, and minimally invasive solutions to complex musculoskeletal issues. From state-of-the-art technologies to innovative techniques, advancements in orthopedic surgery are improving the quality of life for millions of patients worldwide. This article delves into the most groundbreaking developments in the field and how they are revolutionizing recovery.

The Role of Orthopedic Surgery in Modern Healthcare

Orthopedic surgery addresses conditions and injuries involving bones, joints, ligaments, tendons, and muscles. Common procedures include joint replacements, fracture repairs, spinal surgeries, and arthroscopic interventions. With an aging population and an increase in sports injuries, the demand for orthopedic care continues to grow.

Challenges in Traditional Orthopedic Surgery

While traditional techniques have been effective, they often came with limitations:

Long recovery periods: Extended downtime was common after surgeries like joint replacements.

Higher risk of complications: Open surgeries carried risks such as infections and blood loss.

Limited mobility post-surgery: Many patients experienced difficulty regaining full range of motion.

Fortunately, recent advancements are addressing these challenges, bringing about a paradigm shift in orthopedic care.

Minimally Invasive Surgical Techniques

Minimally invasive surgery (MIS) has become a cornerstone of modern orthopedic practice, significantly reducing the physical and emotional burden on patients.

Key Benefits of MIS

Smaller Incisions: Procedures like arthroscopy require only tiny incisions, leading to reduced scarring and less post-operative pain.

Shorter Recovery Times: Patients often return to their daily activities more quickly compared to traditional open surgeries.

Reduced Complication Risks: MIS techniques minimize blood loss and lower the risk of infections.

Applications of MIS in Orthopedics

Arthroscopic Surgery: Commonly used for joint issues, arthroscopy allows surgeons to diagnose and treat conditions such as torn cartilage or ligament injuries with minimal disruption.

Endoscopic Spine Surgery: This innovative approach enables surgeons to address spinal conditions like herniated discs while preserving surrounding tissues.

Robotic-Assisted Orthopedic Surgery

The integration of robotics into orthopedic surgery represents a significant leap forward, enhancing precision and personalization.

How Robotics Improves Surgical Outcomes

Enhanced Accuracy: Robotic systems, such as the MAKO and ROSA platforms, use advanced imaging and sensors to guide surgeons during procedures.

Customizable Implants: Robots help in tailoring implants to match the patient’s unique anatomy, improving fit and function.

Minimized Human Error: Robotic assistance reduces variability, ensuring consistent results.

Real-World Applications

Knee and Hip Replacements: Robotic systems provide unparalleled accuracy in aligning prosthetics, reducing wear and tear, and extending implant longevity.

Spinal Fusion Surgery: Robotics aids in the precise placement of screws and hardware, reducing complications and improving spinal alignment.

3D Printing in Orthopedics

3D printing technology is revolutionizing how orthopedic devices and implants are designed and manufactured.

Custom Implants for Better Fit

One of the most significant advantages of 3D printing is its ability to create patient-specific implants. These implants offer:

Improved Compatibility: They reduce the risk of implant rejection and complications.

Enhanced Comfort: Personalized designs align more naturally with the patient’s anatomy.

Surgical Planning and Training

Pre-Surgical Models: 3D-printed models allow surgeons to practice complex procedures beforehand, leading to better outcomes.

Educational Tools: Medical students and professionals can use these models to enhance their understanding of anatomy and surgical techniques.

Biological Innovations: Regenerative Medicine and Orthobiologics

Regenerative medicine is at the forefront of orthopedic advancements, focusing on the body’s natural healing capabilities.

Orthobiologics: A New Frontier

Orthobiologics are biological substances used to promote tissue healing and regeneration. These include:

Platelet-Rich Plasma (PRP): Concentrated platelets are injected into injured areas to accelerate healing.

Stem Cell Therapy: Stem cells are used to repair damaged tissues, particularly in cartilage and tendons.

Applications of Regenerative Medicine

Osteoarthritis Treatment: PRP and stem cell therapies offer non-surgical options to manage pain and improve joint function.

Tendon and Ligament Injuries: Regenerative treatments help athletes recover faster from conditions like Achilles tendonitis or rotator cuff tears.

Smart Implants and Wearable Technology

The rise of smart implants and wearable devices is transforming post-surgical care and recovery monitoring.

Smart Implants

Equipped with sensors, smart implants provide real-time data on a patient’s recovery, such as:

Load Monitoring: Ensuring the patient avoids excessive stress on the implant.

Healing Progress: Detecting early signs of complications like loosening or infection.

Wearable Devices

Devices like smart braces and motion sensors enable:

Remote Monitoring: Patients can recover at home while their healthcare provider tracks their progress.

Enhanced Rehabilitation: Wearables offer real-time feedback on movement and exercises, improving adherence to physical therapy.

Augmented Reality (AR) in Surgical Training and Procedures

AR is becoming a valuable tool in orthopedic surgery, enhancing both the training of surgeons and the execution of procedures.

How AR Enhances Surgery

Improved Visualization: AR overlays detailed imaging onto the surgical field, guiding surgeons in real time.

Interactive Training: Trainees can practice surgeries in a simulated environment, gaining confidence before working on live patients.

Applications in Orthopedics

Complex Reconstructions: AR assists in navigating intricate areas, such as the spine or pelvis.

Joint Replacements: Surgeons can achieve better alignment and positioning of implants with AR guidance.

Enhanced Rehabilitation Techniques

Recovery is just as crucial as the surgery itself, and advancements in rehabilitation are ensuring patients regain their mobility and independence faster.

Robotic Rehabilitation Devices

Robotic systems assist patients in performing exercises with precision, helping:

Improve Range of Motion: Devices support movements that might be difficult initially.

Build Muscle Strength: Controlled exercises promote safe and effective recovery.

Tele-rehabilitation

Virtual Therapy Sessions: Patients can engage with physical therapists remotely, eliminating the need for frequent clinic visits.

Personalized Exercise Plans: AI-driven apps track progress and adjust rehabilitation plans accordingly.

Patient-Centric Approaches: A Holistic View

Modern orthopedic care emphasizes not only technological advancements but also a patient-centered approach. This involves:

Education: Patients are empowered with knowledge about their conditions and treatment options.

Shared Decision-Making: Healthcare providers and patients work together to choose the best treatment plans.

Psychological Support: Addressing the emotional aspects of recovery ensures a comprehensive healing process.

The Future of Orthopedic Surgery

Orthopedic surgery continues to evolve, driven by innovation and the goal of improving patient outcomes. Future advancements may include:

Gene Editing: Techniques like CRISPR could repair genetic conditions affecting bones and joints.

Nanotechnology: Nano-implants and materials could enhance healing and reduce complications.

AI-Driven Surgery: Artificial intelligence may soon play a pivotal role in planning and executing surgeries with unparalleled precision.

Conclusion

The latest advances in orthopedic surgery are transforming the field, making procedures safer, more effective, and less invasive. From robotic systems and 3D printing to regenerative medicine and AR, these innovations are helping patients recover faster and with better outcomes. By combining cutting-edge technology with patient-centric care, orthopedic surgery is paving the way for a future where recovery is faster, pain relief is lasting, and quality of life is dramatically improved.

Robotic surgery is revolutionising knee and hip replacements, and I’m excited to be part of this future.

My journey with robotics began with the Stryker Mako, a semi-automated assistant that enhances precision without replacing the surgeon’s expertise. This perfect blend of human skill and robotic accuracy allows for more precise cuts, faster recovery, and improved outcomes.

With robotics, we can tailor each procedure to the patient’s unique anatomy, ensuring minimal invasion and faster recovery times. This synergy between surgeon and machine marks a new era in knee and hip replacement surgeries, where patient outcomes are more predictable and successful than ever before.

The future of orthopaedic care is here, and it's driven by precision and innovation.

Hip Reconstruction Market Analysis and Forecast (2024-2032)

The global hip reconstruction market has experienced steady growth, driven by advancements in medical technology, increasing prevalence of hip-related disorders, and an aging population. As healthcare infrastructure strengthens and innovative surgical techniques develop, demand for hip reconstruction surgeries is expected to rise further, creating significant opportunities within this market. This article explores the current market landscape, emerging trends, and future projections, aiming to provide a comprehensive overview for stakeholders, investors, and healthcare professionals.

1. Market Overview

Hip reconstruction is a vital orthopedic surgical procedure aimed at restoring mobility, alleviating pain, and enhancing the quality of life for patients with severe hip conditions. Common procedures in this category include hip replacements (total, partial, or revision), as well as minimally invasive techniques and hip resurfacing. The market is primarily driven by the demand for improved patient outcomes, which has been facilitated by innovation in implant technology and surgical techniques.

Key Market Segments:

Procedure Type: Total Hip Arthroplasty (THA), Partial Hip Arthroplasty (PHA), Revision Hip Arthroplasty, Hip Resurfacing

Material Type: Metal-on-Metal, Metal-on-Polyethylene, Ceramic-on-Ceramic, Ceramic-on-Polyethylene

End-User: Hospitals, Specialty Orthopedic Clinics, Ambulatory Surgical Centers

2. Market Drivers

Several factors drive the global hip reconstruction market, including:

Rising Aging Population: As life expectancy increases globally, the elderly population prone to degenerative bone diseases is expanding, creating a surge in demand for hip reconstruction.

Increasing Incidence of Hip Disorders: Conditions such as osteoarthritis, osteoporosis, and rheumatoid arthritis are becoming more prevalent, resulting in higher rates of hip-related disorders and subsequent surgeries.

Technological Advancements: Innovations like robotic-assisted surgery, minimally invasive procedures, and custom-fit implants are improving surgical outcomes, reducing recovery time, and contributing to market growth.

Growing Awareness and Access to Healthcare: With increasing healthcare awareness and enhanced infrastructure in emerging economies, more patients are opting for reconstructive surgeries to improve mobility and life quality.

3. Market Challenges

Despite promising growth potential, the hip reconstruction market faces certain challenges:

High Procedure Costs: Hip reconstruction surgeries, particularly those involving advanced technology and materials, can be expensive. The cost barrier remains significant, particularly in low- and middle-income countries.

Post-Surgical Complications: While surgery success rates are high, complications such as infections, implant loosening, and joint stiffness can affect patient outcomes, impacting market perception and growth.

Stringent Regulatory Approvals: Hip implants and related devices require rigorous testing and regulatory approval. This process can be lengthy and costly, delaying the launch of new products.

4. Emerging Trends

Minimally Invasive Surgery: Patients and surgeons are increasingly opting for minimally invasive procedures, which reduce incision size, decrease recovery time, and lower risk of complications. Techniques like direct anterior approach for hip replacement are gaining traction for their efficiency.

Robotic-Assisted Surgery: The adoption of robotic technology in hip reconstruction allows for high precision and customization. This technology, which includes systems like MAKO by Stryker, is popular in developed countries and is gradually penetrating emerging markets.

Biologic and 3D-Printed Implants: The use of biologic materials and custom-made implants through 3D printing technology is a trend that’s reshaping the market. Biologic materials improve integration with human tissue, reducing rejection rates, while 3D printing allows for personalized implants that fit patient anatomy perfectly.

5. Regional Analysis

The hip reconstruction market shows varying trends across regions:

North America: This region dominates the market due to its advanced healthcare infrastructure, high healthcare spending, and a well-established orthopedic industry. The presence of key players and a large elderly population make North America a prominent market.

Europe: Europe holds a substantial share of the market, driven by high incidence rates of hip-related disorders and robust healthcare facilities. Countries like Germany, France, and the UK have a high adoption rate for innovative hip reconstruction technologies.

Asia-Pacific: The APAC region is expected to see the fastest growth, thanks to increasing healthcare access, an aging population, and rising awareness. China and India are key contributors, with their large populations and government initiatives to improve healthcare access.

Latin America and Middle East & Africa (MEA): While these regions represent a smaller market share, they show significant potential for growth due to developing healthcare infrastructure and growing interest from global players to expand into these regions.

6. Competitive Landscape

The hip reconstruction market is highly competitive, with several key players investing in research and development to introduce innovative products. Major companies include:

Zimmer Biomet: Known for its comprehensive portfolio, including advanced materials and implant designs.

Stryker Corporation: A leader in robotic-assisted hip replacement surgeries, Stryker’s MAKO system is one of the most widely adopted globally.

Smith & Nephew: This company has a strong presence in minimally invasive and customized implant solutions.

Johnson & Johnson (DePuy Synthes): One of the largest orthopedic companies, DePuy Synthes offers a range of hip reconstruction solutions focusing on patient-specific outcomes.

7. Future Market Projections

Analysts project that the hip reconstruction market will experience substantial growth through 2032, driven by an increasing global population and demand for quality orthopedic care. The market is expected to grow at a compound annual growth rate (CAGR) of approximately 5.5% from 2024 to 2032.

Key Growth Drivers:

Expansion of robotic-assisted surgery and 3D-printed implants

Greater investment in emerging markets by global orthopedic companies

Focus on minimally invasive and patient-centric procedures

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Leading Orthopedic Devices Companies Driving Innovation in Musculoskeletal Health

Orthopedic devices play a crucial role in treating musculoskeletal issues such as fractures, joint degeneration, and deformities. With the rise of aging populations and increasing sports-related injuries, the demand for advanced orthopedic solutions has surged. Behind this growth are several key orthopedic device companies pioneering cutting-edge technologies and innovative treatments. Here's a look at some of the leading orthopedic devices companies making a significant impact on the industry.

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1. Stryker Corporation

Stryker is a global leader in medical technology, including orthopedic implants and surgical equipment. With a focus on innovation, Stryker offers a comprehensive range of orthopedic devices for joint replacement, trauma, spine, and sports medicine. Their Mako robotic-arm-assisted surgery system for joint replacement is a prime example of how the company leverages technology to improve surgical precision and patient outcomes.

2. Zimmer Biomet

Zimmer Biomet is renowned for its wide portfolio of orthopedic products, particularly in joint reconstruction. The company’s offerings include hip, knee, shoulder, and elbow replacement systems. Zimmer Biomet has also invested in robotics and digital technologies, such as the ROSA Knee System, which enhances the precision of knee replacement surgeries.

3. DePuy Synthes (Johnson & Johnson)

As part of Johnson & Johnson’s medical device segment, DePuy Synthes specializes in orthopedic solutions for trauma, spine, joint reconstruction, and sports injuries. Their ATTUNE Knee System and VELYS Robotic-Assisted Solutions demonstrate their commitment to improving orthopedic surgery outcomes through advanced medical technologies.

4. Smith & Nephew

Smith & Nephew focuses on innovation in areas such as sports medicine, trauma, and advanced wound management. Their extensive product line includes joint replacement devices and surgical tools for soft tissue repair. With a strong emphasis on research and development, Smith & Nephew has introduced pioneering products like the OXINIUM Oxidized Zirconium technology for joint implants.

5. Medtronic

Medtronic’s orthopedic division primarily focuses on spine surgery solutions. Their Spinal and Biologics business unit develops products for treating spinal disorders, including minimally invasive devices for spinal fusion and disc replacement. Medtronic also integrates neuromonitoring technology into its spine care solutions to enhance surgical safety.

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6. DJO Global (Enovis)

DJO Global, now part of Enovis, is a leader in the development of bracing, supports, and rehabilitation products. They also offer surgical reconstructive implants and pain management solutions, making them a comprehensive provider of orthopedic care products. Their MotionMD platform, which focuses on patient engagement and outcomes, showcases how digital solutions are transforming orthopedic care.

7. NuVasive

Specializing in spine surgery, NuVasive has built a reputation for its innovative approach to minimally invasive spinal solutions. Their flagship product, the XLIF (eXtreme Lateral Interbody Fusion) system, has revolutionized spinal fusion surgery by reducing recovery time and improving patient outcomes.

8. Exactech

Exactech focuses on joint replacement solutions, particularly in the hip, knee, and shoulder segments. Their personalized surgical planning tools and implant designs, such as the Equinoxe shoulder system, are known for improving both patient outcomes and surgeon efficiency.

9. ConMed

ConMed is a global medical technology company known for orthopedic surgery products, especially in the field of sports medicine. Their innovative products include the Y-Knot Pro, a suture anchor for shoulder surgeries, and their Hall Surgical power tools, designed for orthopedic and trauma surgeries.

Conclusion: Innovating for Better Patient Outcomes

The orthopedic device industry continues to evolve with the development of advanced implants, robotics, and minimally invasive techniques. Companies like Stryker, Zimmer Biomet, and DePuy Synthes are at the forefront, driving innovation to improve patient outcomes and transform musculoskeletal care. These industry leaders are not only addressing current medical challenges but also paving the way for the future of orthopedic treatments.

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VisionOS expands health app possibilities with Vision Pro

Infinite canvas in visionOS

Innovative applications for health and wellness are made to use visionOS’s unlimited canvas to reveal spatial experiences that help users both at home and in clinical settings.

Medical facilities and developers have been using Apple’s cutting-edge frameworks and technologies for decades to enhance efficiency, save costs, expand research options, and improve patient outcomes. The healthcare community has driven purposeful change with powerful Apple products at their fingertips. Examples include using iPads to reduce costs and shorten NICU stays so newborns can be at home with their families and iPhones to help nurses respond faster to alerts and alarms and improve medication administration.Image credit to Apple

With the release of Apple Vision Pro, developers can now create experiences that, whether users are at home or in a clinic, may have a beneficial influence on people’s lives. With the smooth integration of digital and real-world material, Vision Pro opens up stunning spatial experiences on an unlimited canvas. Additionally, because to visionOS’s special features, developers in the healthcare industry are developing new applications that were previously unthinkable, revolutionizing fields including medical imaging, behavioral health, clinical education, surgical planning, training, and more.

The amazing applications that developers in the healthcare industry are creating for Apple Vision Pro��are really amazing, as stated by Susan Prescott, Apple’s vice president of Worldwide Developer Relations. “They’re excited to see what new possibilities their developers’ creativity and perseverance, along with visionOS’s technological prowess, are igniting for doctors, frontline staff, and even students.”

Apple Vision Pro in the healthcare and wellness

These are only a few of the wellness and healthcare-related applications that are now available for Apple Vision Pro.

Planning and Instruction for Surgery

Every year, more than a million Americans get knee or hip replacement surgery, and as the population ages, that number will only increase. Compared to typical joint replacement procedures, the use of Stryker’s Mako SmartRobotics by surgeons might potentially result in improved patient outcomes, such as less pain and quicker recovery periods, for complete knee, total hip and partial knee replacements. Stryker is expanding a surgeon’s experience with Apple Vision Pro and iPhone outside of the operating room with the new myMako app. Surgeons may examine and analyze patients’ Mako surgery plans at any moment in an innovative, immersive visual experience with myMako, which helps with better planning.

Surgeons may get detailed surgical plan information and insights with ease with the myMako software for Apple Vision Pro, which offers a dynamic, intuitive, and three-dimensional interface. Robert Cohen, president of Digital, Robotics, and Enabling Technologies at Stryker, said that it was previously impossible to have this degree of knowledge at any time or location. “Stryker’s market-leading enabling technologies, like Mako SmartRobotics, have the exciting potential to change surgeons’ perspectives on preoperative planning and the intraoperative experience with Apple Vision Pro, all in line with Stryker’s mission to improve healthcare.”Image credit to Apple

Boston Children’s Hospital created a thorough learning program in a secure, easily accessible virtual setting to help with some of the training and onboarding delays that healthcare professionals have. Designed specifically for Apple Vision Pro, CyranoHealth highlights proficiency with novel medical devices, such as infusion pumps, assisting frontline staff nurses foremost in gaining self-assurance and lowering fear. Students may get acquainted with the most recent developments in healthcare technology via this immersive, multimodal approach, which helps to equip them to deal with obstacles they may face in the real world.

“CyranoHealth is revolutionizing healthcare professional training by using spatial computing to create lifelike and immersive simulations that improve learning and prevent burnout.” According to Boston Children’s chief innovation officer John Brownstein, Ph.D., “the app represents a significant leap forward in healthcare training, blending technology and medicine to create a workforce ready for the future.”

Other applications for surgical education and planning are as follows:

Apple Vision Pro’s Fundamental Surgery uses spatial computing to teach surgical techniques.

Teams may expand their training efforts and improve surgical learning chances with CollaboratOR 3D by KARL STORZ.

Elsevier’s Complete HeartX is a compelling educational tool that explores the complexities of the human body to create a realistic and captivating learning environment. It is specifically built for Apple Vision Pro.

With Insight Heart, users may comprehend the human heart in a way never possible before. With ARKit, users may explore different heart diseases and quickly scan their physical surroundings. They can even examine 3D hearts using CT data.

“Health developers can use Apple Vision Pro to help improve procedural planning, education, and outcomes because of its limitless capabilities to transform a user’s space, display 3D objects at life size, and see all relevant data in one view.”

Efficiency and Cooperation

Surgeons, medical students, and patients may watch realistic, interactive holograms of the human body taken via medical scans in their actual surroundings thanks to Siemens Healthineers’ Cinematic Reality app for Apple Vision Pro. The application combines cutting-edge path-tracing technology with Metal and the M2 processor’s capabilities to simulate light interactions with virtual objects and produce incredibly realistic lighting and reflections.

Head of Digital & Automation at Siemens Healthineers Christian Zapf said, “Cinematic Reality offers people the opportunity to immerse themselves in a world of photorealistic renderings of the human anatomy.” “That three-dimensional experience is flawlessly presented by Apple Vision Pro, which also offers excellent flexibility and stand-alone usage. They believe that the technology has enormous promise for both therapeutic and educational applications.Image credit to Apple

When a physician works with a patient, medical records are essential for knowing their medical history and for identifying new chances to promote better health outcomes. Using simple gestures like tapping their fingers to select, flicking their wrists to scroll, or typing with a virtual keyboard or dictation, doctors and clinicians will be able to easily complete charting, review labs, communicate securely through chat, and complete in Basket workflows with Epic Systems’ Epic Spatial Computing Concept for Apple Vision Pro.

According to Seth Howard, senior vice president of research and development at Epic, “creating the first electronic health record experience for spatial computing was an exciting project for their developers.” “Clinicians will be able to engage with patient health information in new, engaging ways using Apple Vision Pro. They are open to suggestions from the medical community about how this technology might improve healthcare delivery in the future.

Other applications for cooperation and productivity include as follows:

Supporting immersive spatial experiences for multimedia and medical imaging is Visage Ease VP. In an effort to enhance patient care, UC San Diego Health became the first healthcare institution to test the technology, considering possibilities such as enhancing ineffective tumor board evaluations and developing collaborative spaces in the medical field.

Falcon Vue, which maximizes the potential of seeing medical images in three dimensions on all platforms.

Medivis enhances medical imaging to promote surgical accuracy and patient care by bringing SurgicalAR Vision to Apple Vision Pro.

Wellness and Behavioral Health

The Xaia software from Cedars-Sinai fully utilizes Apple Vision Pro’s special features to assist patients’ mental health requirements. Xaia provides patients with AI-enabled, conversational mental health care in soothing spatial spaces where they may also practice meditation and deep breathing exercises via its trained digital avatar. Immersion therapy sessions are conducted in settings that are most comfortable for the participants, whether they decide to stay in their area or turn it into a tranquil spot like a beach. The app’s primary focus is privacy; no personal nor health information is needed.

“The breathtaking display of Apple Vision Pro offers a doorway into an immersive and interactive world of behavioral health support – a significant advancement over prior technologies,” stated Brennan Spiegel, MD, MSHS, a professor of medicine, director of Health Services Research, and head of Cedars-Sinai’s master’s program in Health Delivery Science. “With Xaia, they use every pixel of that incredible resolution and the whole gamut of vibrant colors to create an immersive treatment experience that is both intensely personal and captivating. Apple’s team was able to rethink how spatial computing may help behavioral health and general welfare in ways that were previously unthinkable because of this amazing gadget.

Other applications related to wellbeing and mental health include as follows:

The Apple Vision Pro’s Mindfulness app is intended to provide a peaceful, engrossing atmosphere for users.

TRIPP, which offers immersive experiences for Vision Pro that include guided breathing exercises and a sleep environment with spatial audio and lighting graphics.

Healium provides Vision Pro users with exquisitely crafted experiences that promote relaxation and resilience by evoking stress-relieving memories of outdoor getaways.

Odio is a tool that allows users to concentrate, unwind, or sleep soundly by projecting lovely 3D graphics into their environment while using simple motions and spatial audio.

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Robotic Joint Replacement Using Stryker MAKO Robot

The introduction of Robotics in joint replacement surgeries represents a revolutionary advancement in orthopaedic surgery. This cutting-edge technology combines the expertise of surgeons with the precision and accuracy of a robotic system. The Stryker MAKO Robot is specifically designed to enhance the outcomes of joint replacement procedures, offering a new paradigm in surgical excellence.

Synopsis

 What is a Robotic Joint Replacement Surgery?

 Benefits of Robotic Joint Replacement

 Types of Joint Replacement Surgeries with Stryker MAKO

 Comparison Between Traditional & Robotic Joint Replacements

 

What is a Robotic Joint Replacement Surgery?

A joint replacement or arthroplasty is a surgical procedure in which a damaged or diseased joint is replaced with an artificial joint (prosthesis). Precision is paramount in joint replacement surgery, as it directly correlates with the longevity and effectiveness of implants. In robotic joint replacement, the use of robotic systems leads to a more advanced and precise approach to joint replacement surgeries. These systems are designed to help surgeons with higher accuracy and precision.

During robotic joint replacement surgeries, a robotic arm is in place which is controlled by the surgeon, along with advanced imaging technology that guides the preparation of bones and placement of the prosthetic components. The Stryker MAKO robotic system can provide surgeons with enhanced precision (below 1 millimetre and 0.1 degrees) and accuracy compared to traditional surgical techniques, even in complex procedures. The system's visual assistance feature helps surgeons stay within the predefined surgical plan, while its tactile resistance feature prevents the surgeon from moving outside of the required boundary.  

Benefits of Robotic Joint Replacement

Stryker MAKO Robot ensures optimal alignment and placement of implants. This heightened precision contributes to the durability of implants and also minimizes postoperative complications.

Accuracy and Precision for Enhanced Implant Longevity

The Stryker MAKO Robot system allows surgeons to plan and execute procedures with a detailed precision that surpasses traditional methods. It significantly contributes to the longevity of implants, ensuring optimal alignment and function. It reduces the likelihood of premature wear of implants due to malpositioning or malalignment.

Minimised Pain and Accelerated Recovery for Early Return to Normalcy

The robotic approach is minimally invasive which contributes to a swift post-operative recovery. There is minimal need for soft tissue release. This minimises discomfort and enables patients to return to their normal activities sooner than traditional approaches.

Intra-operative Safety Measures: Absence of Nerve, Artery, and Soft Tissue Damage

The Stryker MAKO Robot incorporates advanced safety measures during surgery. It significantly decreases the damage risk to nerves, arteries, and soft tissues. The system allows for meticulous planning and real-time adjustments, ensuring a high level of intra-operative safety.

Reduced Medical Complications, Especially Beneficial for the Elderly

For elderly patients, robotic joint replacement offers a major advantage by eliminating the chances of medical complications. The precision minimises the trauma associated with the surgery which is highly beneficial for the older population who may have underlying health concerns. It allows them to undergo joint replacement with a higher level of safety and confidence. Avoiding the use of conventional instrumentation which passes through the bone canal reduces the risk of fat embolism, especially in the elderly.

Types of Joint Replacement Surgeries with Stryker MAKO

Total Hip Replacement

Stryker MAKO Robot's application in total hip replacement brings a new dimension to surgical precision. The robot assists surgeons in achieving optimal bone preparation, and implant positioning, ensuring stability and longevity. This technology enables personalised planning, addressing every patient’s unique anatomical considerations and contributing to improved hip function post-surgery.

Total Knee Replacement

Total knee replacement surgery benefits immensely from robotic guidance. By providing real-time data and feedback, the robot assists surgeons in executing precise cuts and implant placement. This enhances the surgery’s overall accuracy and contributes to better alignment of the knee implant.

Partial Knee Replacement

Partial knee replacement is a more conservative approach than total knee replacement. It gains a significant boost in precision with the application of robotic technology. The Stryker MAKO Robot allows for selective targeting and replacement of only the damaged knee portion, preserving healthy tissue. This level of precision is crucial for optimising joint function, reducing recovery time, and providing patients with a more natural-feeling knee post-surgery.

Consult our orthopaedic hospital in Bangalore if you need a robotic knee replacement.

Comparison Between Traditional & Robotic Joint Replacements

In contrast to conventional approaches, robotic assistance provides unparalleled precision and accuracy in implant placement. Traditional methods often rely on manual techniques, which may affect the alignment and cause potential complications. The Stryker MAKO Robot allows for meticulous preoperative planning and real-time adjustments, ensuring optimal outcomes for patients.

Patients usually feel concerned about knee replacement robotic surgery. The misconceptions include fears of losing control or overreliance on technology. As surgeons, it’s important that we address these concerns by emphasising the potential of robotic joint replacements on how it is a collaborative effort between the surgeon and the advanced technology of the robotic system. Surgeons remain in control throughout the procedure, with the robot serving as an assistant precision tool to enhance their capabilities.

Consult our robotic surgeon if you need Stryker Knee Replacement Surgery. 

Discover Excellence in Joint Replacement, Trauma Care, and Bone Disease Treatment at Dr. D. Y. Patil Private Super Specialty Hospital, Pimpri, Pune

Step into the heart of excellence in joint replacement, trauma, and bone disease care at the Dr. D. Y. Patil Private Super Specialty Hospital in Pimpri, Pune. Our center specializes in cutting-edge Robotic Knee and Hip Replacements utilizing the Stryker Mako Robotic Arm-Assisted Surgery. We also offer expert care for trauma injuries and various bone diseases. Our commitment is unwavering, striving to provide exceptional care and holistic solutions for individuals grappling with joint-related issues, trauma, and bone ailments.

Top-Notch Orthopedic Specialists at Your Disposal

Our center is proud to host a team of exceptionally skilled and experienced orthopedic specialists who have earned acclaim for their proficiency in joint replacement surgeries, trauma management, and the treatment of diverse bone disorders. With an unwavering focus on patients, our team is dedicated to delivering personalized care, ultimately enhancing the quality of life for those we serve.

Comprehensive Services

We comprehend the profound impact that joint pain, trauma, and bone diseases can have on daily life. Hence, we offer a comprehensive range of advanced diagnostic and therapeutic services, meticulously tailored to address each patient's individual needs. From state-of-the-art imaging techniques to minimally invasive surgical interventions, our objective is to optimize outcomes and ensure the best possible results.

Why Choose Us?

At the Dr. D. Y. Patil Private Super Specialty Hospital in Pimpri, Pune, we are equipped with state-of-the-art technology and modern infrastructure that underpin our specialized orthopedic services. Our dedicated team collaborates seamlessly, embracing a multidisciplinary approach that harnesses the combined expertise of orthopedic surgeons, rehabilitation specialists, physical therapists, and other healthcare professionals.

If you are suffering from knee or hip pain, book an appointment with Dr. Hulse now! Contact: +91 9480260001 or visit website https://drhulse.com/

Advancements in Robotic Knee and Hip Surgery in Gurgaon

Introduction:

In recent years, the field of orthopedic surgery has witnessed remarkable advancements with the introduction of robotic technology. Specifically, robotic knee and hip surgery have revolutionized the way these procedures are performed. This blog post will delve into the world of robotic knee and hip surgery, focusing on the expertise of robotic surgeons in Gurgaon, India.

Section 1: Robotic Knee Surgery

Robotic knee surgery involves the use of advanced robotic systems to assist surgeons in performing precise and accurate procedures. One notable robotic system is the Mako robotic arm, which aids in knee replacement surgeries. With its advanced imaging and navigation capabilities, the Mako system allows surgeons to create a personalized surgical plan based on the patient's unique anatomy. This ensures optimal alignment and positioning of the knee implant, resulting in improved outcomes and faster recovery times.

Section 2: Robotic Hip Surgery

Similar to robotic knee surgery, robotic hip surgery utilizes cutting-edge technology to enhance surgical precision. Robotic systems enable surgeons to perform minimally invasive hip replacement surgeries with greater accuracy. By providing real-time feedback and guidance, these systems help ensure optimal placement of the hip implant, leading to improved functionality and reduced risk of complications. In Gurgaon, skilled robotic surgeons specialize in robotic hip replacement procedures, catering to patients seeking advanced and reliable treatment options.

Section 3: Expert Robotic Surgeons in Gurgaon

Gurgaon, a thriving city in India, is home to highly skilled orthopedic surgeons specializing in robotic knee and hip surgery. Amongst them, Dr. Hemant Sharma stands out as a renowned expert in the field. With extensive experience and expertise in robotic joint replacement surgeries, Dr. Sharma has helped numerous patients regain their mobility and improve their quality of life. His commitment to delivering personalized care and utilizing state-of-the-art technology has earned him a reputation as one of the top robotic knee surgeons in Gurgaon.

Section 4: The Benefits of Robotic Knee and Hip Surgery

Robotic knee and hip surgery offer several advantages over traditional surgical techniques. These benefits include:

1. Enhanced precision: Robotic systems enable surgeons to achieve unparalleled precision and accuracy during the procedure, resulting in improved outcomes and patient satisfaction.

2. Minimally invasive approach: Robotic-assisted surgeries often involve smaller incisions, leading to reduced scarring, less pain, and faster recovery times for patients.

3. Customized treatment: Robotic technology allows for personalized surgical plans based on each patient's unique anatomy, ensuring optimal implant placement and alignment.

4. Reduced complications: The advanced imaging and guidance systems in robotic surgery help minimize the risk of complications, such as implant misalignment or instability.

Conclusion:

The advent of robotic knee and hip surgery has transformed the landscape of orthopedic procedures. With highly skilled robotic surgeons like Dr. Hemant Sharma in Gurgaon, patients can benefit from the latest advancements in technology and personalized care. Whether it's a robotic knee replacement or a robotic hip replacement, these innovative procedures offer improved precision, faster recovery, and better long-term outcomes for patients in Gurgaon and beyond.

Modern Orthopaedics Of New Jersey To Host Grand Opening Celebration For New Paramus Clinic Location

Modern Orthopaedics Of New Jersey To Host Grand Opening Celebration For New Paramus Clinic Location https://ift.tt/YswxcbN PARAMUS, NJ: Modern Orthopaedics of New Jersey, a premier orthopedic surgery clinic offering cutting-edge treatments to residents of Paramus and Bergen County, is preparing to celebrate the opening of its flagship Paramus clinic on Route 17 North.  The Paramus Grand Opening event, which will take place on Thursday, September 14, 2023 at 72 Route 17 North in Paramus will start at 5:00 p.m. and feature music, food trucks, a magician, and great company!  A ribbon cutting ceremony will also be held with local officials. Modern Orthopaedics of New Jersey officially opened the doors to its brand new Paramus clinic this past Spring of 2023 after they completed a large renovation of the iconic “Paramus Fabric Center” and its grounds.  This new facility is designed to create a spa-like experience for patients and to promote comfort and healing. Patients and staff alike have already been enjoying the new clinic’s innovative and modern design throughout the Spring and Summer months.  “I’m so proud of this stunning piece of architecture that so perfectly represents the type of careful and meticulous orthopedic care we deliver to our patients,” said Dr. Peter DeNoble.  “We can’t wait to celebrate our Grand Opening with the Bergen County community.”   Modern Orthopaedics of New Jersey was founded in 2020 by president and CEO Dr. Peter DeNoble, MD and is known for its unparalleled musculoskeletal care. Their team of award-winning board-certified and board-eligible orthopedic surgeons include orthopedic hand, wrist, elbow and shoulder specialists Peter DeNoble, MD, David Ratliff, MD, and Alejandro Morales-Restrepo, MD.  Lorraine Stern, MD is a fellowship-trained trauma surgeon who also specializes in Mako robotic hip and knee replacements.  For the past 5 years Dr. DeNoble has been recognized as an NJ Top Doctor by New Jersey Monthly Magazine, and Drs. DeNoble, Ratliff, and Stern have all been selected in the past two years as Castle Connolly Top Doctors.  In addition to the Paramus office, Modern Orthopaedics of New Jersey also has offices in Parsippany and Wayne, New Jersey.   To learn more about Modern Orthopaedics of New Jersey and its services visit https://modernorthonj.com.  To RSVP to the Paramus Grand Opening email [email protected] or call 201-572-7982.   The post Modern Orthopaedics Of New Jersey To Host Grand Opening Celebration For New Paramus Clinic Location appeared first on Modern Orthopedics of New Jersey. via Modern Orthopedics of New Jersey https://ift.tt/TqWE8BN September 08, 2023 at 12:56PM

Orthopedic Centers of Excellence World-Class Care Close To Home

Because we focus on the patient first and foremost, Optim Surgery Center and Optim Medical Center-Tattnall have become some of the most decorated facilities in our region with awards for, safety, quality, and compassion in our continual quest to deliver world-class care right here at home.

Our Centers of Excellence are comprised of teams that are highly trained in specialized areas of orthopedic medicine and have made significant contributions to improving care and outcomes in that area. The Centers of Excellence are led by board-certified, fellowship-trained surgeons that are experts in their highly specialized orthopedic field. The shared vision and collaboration among our teams and facilities lead to the highest quality care throughout the region.

Of note, Optim Medical Center-Tattnall is currently the ONLY hospital in the state of Georgia to have earned DNV GL-Healthcare’s Orthopedic Center of Excellence designation by achieving certification in at least three (3) orthopedic service line programs. Optim Medical Center-Tattnall holds DNV GL certifications specifically for our Hip and Knee Replacement Program, Spine Surgery Program, and Shoulder Surgery Program.

Our Orthopedic Centers of Excellence include:

Award-Winning Care at Optim's Hip and Knee Center of Excellence

Our state-of-the-art facilities are accredited and have received numerous awards for our unmatched safety record and compassionate care. Optim Health System’s network of highly trained medical staff and board-certified, fellowship-trained physicians offer comprehensive, specialized treatment. Our specialty-focused facilities and medical teams afford our patients, in both larger metropolitan and rural areas of our region, access to the uniquely safe, high-quality, compassionate, and personalized care that sets the standard in today’s healthcare marketplace. So, from the time you enter the Shoulder Center of Excellence to the moment you leave you can expect superior care.

Stop Suffering from Joint Pain and Get Back to the Life You Love

Life’s too short to live with achy and stiff joints. If joint pain in your knee or hip has you down, it’s time to get help and you’ve found the right place. Our team of board-certified and fellowship-trained surgeons is expert in joint replacement procedures. They offer the latest techniques and innovative solutions to make sure they can find the right choice for each patient’s individual needs. We are proud to a DNV GL-Healthcare Certified Hip & Knee Center of Excellence and to be named among the Top 5% in the Nation for joint replacement for seven consistent years and among the Top 10% in the Nation for Joint Replacement for the past eight years running [2021]. Through Optim's Hip and Knee Center of Excellence, patients have access to doctors who specialize in:

Total knee replacement

Partial knee replacement

Minimally invasive knee replacement

Hip replacement

Minimally invasive (anterior approach) hip replacement

Same-day joint replacement

Mako Smart Robotics ™ Joint Replacement 

OMNIbotics® 

Complex or Revision Joint Replacement

Arthroscopic Hip and Knee Surgery

Optim’s medical staff team of joint replacement surgeons will be able to recommend the best approach for you, based on your specific needs. Minimally invasive knee and hip replacements, as well as, robotic joint replacement procedures, are the hallmark of surgeons who are joint replacement experts. Minimally invasive joint replacements utilize special training, special equipment, and positioning to perform knee and hip replacements in a way that allows for less soft tissue or muscle injury and smaller incisions. For the patient, that generally means less pain and a shorter recovery time. Whether it’s your first joint replacement or you are here for a complex or revision joint replacement the attention to detail and care is the same. Optim is known regionally for exceptional outcomes and a lower risk of infection.  

If you have been struggling with hip or knee pain isn’t it time to find out if a joint replacement is right for you? If you find yourself with several of the signs below. Take the time to see a doctor and discuss your options to get back to a pain-free life

10 Signs That You May Need A Joint Replacement

You experience pain in your joints daily

The pain wakes you up or disturbs your sleep at night

A change in weather makes your pain worse

You have difficulty climbing stairs or getting up from a seated position

You take medication daily for pain

You have stopped doing activities that you once enjoyed because of the pain

Your joint is stiff or swollen

You are limping when you walk or using an aid to walk

Using the stairs is difficult

You are losing the range of motion in your joint

Doctor-controlled robot to perform orthopedic surgeries in Dartmouth, N.S.

A smart robotics system could be the future of what surgery looks like and it’s already hard at work at Dartmouth General Hospital.

The Mako Smart RoboticsTM system helps doctors perform hip and knee surgeries more accurately.

The system allows doctors to take CT scans, plan where implants go and take exact measurements. A surgeon controls the robotic arm.

Orthopedic surgeon Dr. Jennifer Leighton said this new technology will provide the best possible patient care.

“We’ve never been able to manually execute with this level of precision and we can also capture the data to then use and look back at how we can be better,” she said.

Dartmouth General Hospital ran the robot’s first trial on a patient over two months ago. It was the first surgery in Canada using this smart robotic technology.

Officials at the hospital believe the system will help reduce wait time.

“The ability to use this robotic technology to allow patients to have same-day surgeries and not requiring an overnight stay at the hospital is where we can really tackle those wait times,” said Stephen Harding, president and CEO of Dartmouth General Hospital Foundation.

Dartmouth general performs the majority of partial knee replacement surgeries in Nova Scotia. Leighton said the robot makes the procedure easier for patients.

“We’re really excited to bring this in to improve satisfaction rates and decrease things like pain, swelling and the need for narcotics,” she said.

The Dartmouth General Hospital Foundation fully funded the $2-million dollar project.

The foundation said the hospital could add more robots depending on how the current one affects surgical wait times.

from CTV News - Atlantic https://atlantic.ctvnews.ca/doctor-controlled-robot-to-perform-orthopedic-surgeries-in-dartmouth-n-s-1.6230690

Robotic Knee Replacement

Robotic knee replacement is a great method to help patients with joint problems. This procedure is able to increase the success rate of the surgery and lower the risk of errors during the surgery. It can also make access to the knee joint easier. The recovery time is also reduced.

Reduction in recovery time

Robotic knee replacement surgery can increase the speed and accuracy of the surgery while reducing the recovery time. A robotic arm provides surgeons with enhanced precision and the ability to make minor incisions to lessen the amount of blood loss.

Recovery after knee replacement surgery can vary greatly depending on the patient's health and ability to tolerate pain. However, most patients can drive and resume most normal activities within four to six weeks.

Patients should take care of themselves during their recovery period. Simple tasks can trigger stiffness or numbness. Anti-inflammatories such as ibuprofen and acetaminophen can help alleviate this issue.

One of the most important challenges to recovery is regaining motion in the joint. For this reason, patients should stay active and include physical therapy into their regimen. The goal is to get the leg to bend at least 120 degrees.

Several types of exercises can be done at home to strengthen the quadricep muscles and improve the hamstring muscles. Once a patient is ready, they can engage in various activities, including golf.

Improved access to the knee joint

If you suffer from chronic knee pain, you may be a candidate for robotic knee surgery. The procedure offers better access to the joint. This can help patients have a more comfortable recovery and a more active life. Compared to traditional knee replacement, robotic-assisted surgery offers an improved outcome and precision.

Robotic-assisted surgery uses a CT scan to create a three-dimensional model of the affected knee. This model helps the surgeon plan out the surgery and the best placement of the knee implant.

The robotic arm uses sensors to help optimize balance and alignment. It also allows the surgeon to release soft tissue intraoperatively.

While the robotic-assisted TKR offers a precise positioning of the prosthesis, there are still risks involved. For example, the mechanical parts of the knee can wear out. Therefore, it may need to be replaced later. However, the risk of a complication is the same as with the standard TKR.

A well-balanced knee is crucial to a successful TKA. Without a balanced knee, the TKR can become unstable and lead to early failure.

Reduced risk of training errors

Robotic total knee replacement (TKA) is a surgical technique that involves computer navigation, which helps to achieve the desired limb alignment. Compared to conventional TKA, this procedure provides accurate bone cuts and improved component positioning, which can lead to better function and longevity. However, it also has its limitations and complications.

Several robotic systems are used for TKA. The ACROBOT robotic system, for example, was designed by Imperial College, London, United Kingdom. This system was acquired by MAKO Surgical, a medical device company, in 2013. URS Ortho Rastatt, Germany, developed CASPAR, a robotic system for total hip arthroplasty.

Other systems are available for robotic TKA, including RATKA, which uses real-time software, and ROBODOC, which has been used in comparative studies. These systems have not been tested against CAS TKA.

Some orthopedic companies hope robotics will help improve kinematics, increase the survival rate of implants, and reduce premature implant failure. But in order to gain full benefit, more research is needed to determine the long-term results of robotic surgery.

High success rate

Robotic knee replacement is a surgical technique that allows for more accurate implant placement. It also offers an easier recovery process. The procedure relies on computer navigation systems.

Compared to open surgery, robotic TKA requires a smaller incision. This means less blood loss, less trauma and less disruption of healthy bone and tissue. In addition, patients experience fewer complications.

While many surgeons have a high success rate with robotic knee replacements, there are a few risks. However, these risks can be minimized by following certain guidelines.

If you're considering a robotic knee replacement, talk to your surgeon about your options. He or she can recommend the best option for you. Your doctor will take into account your age, your health and your risk factors.

To increase your chances of a good outcome, you should follow your surgeon's advice before, during and after the operation. You should also take a few simple precautions to help speed up your recovery.

Robotic Hip Replacement is the latest evolution in one of the most successful operations ever invented.

The MAKO Robot was the first robot introduced into the orthopaedic surgical field and has more than 15 years of scientific data behind it, proving its safety and efficacy. The planning software provides each patient with a personalised surgical plan based on each patient’s own unique anatomy, while the MAKO robotic arm allows the surgeon unparalleled precision in placement of the components of the hip replacement.

Dr Balendra has been performing Robotic hip replacements since 2019, and has been utilising robots successfully to improve the accuracy of the operation that he performs. Be reassured that your surgeon will always be in control of the robot. For more information visit our website now!