The future of surgery is here, and it's augmented. Top medical institutions are harnessing the power of Augmented Reality (AR) to transform surgical precision, streamline workflows, and foster collaboration like never before. 🔬 Precision: AR enables surgeons to visualize complex anatomy in 3D, overlaying critical information directly onto the patient. This technology enhances accuracy, reduces errors, and leads to better patient outcomes. ⚙️ Workflows: AR is optimizing surgical workflows by providing real-time guidance and step-by-step instructions during procedures. This streamlining reduces operating times and improves efficiency across the board. 🤝 Collaboration: Surgeons can now collaborate in real-time with colleagues around the world, sharing insights and expertise during live surgeries, thanks to AR. This global connectivity is breaking down barriers and raising the standard of care. As AR continues to evolve, its impact on the medical field will only grow, pushing the boundaries of what's possible in surgery. The future is augmented—and it's saving lives. #AugmentedReality #Surgery #MedicalInnovation #HealthcareTech #Collaboration #SurgicalPrecision #FutureOfMedicine

Medivis SurgicalAR Technology is an augmented reality (AR) system designed to assist surgeons during medical procedures. The video demonstrates how this technology overlays 3D anatomical models directly onto the patient's body in real-time, allowing surgeons to visualize critical structures beneath the skin. The AR system utilizes advanced tracking and registration algorithms to accurately align the virtual 3D models with the patient's anatomy. This provides surgeons with an "X-ray vision" capability, enabling them to see the unseen and plan their surgical approach more precisely. One of the key advantages highlighted is the ability to visualize patient-specific data, such as CT or MRI scans, directly in the operating room. This can potentially lead to safer and more efficient surgical procedures by enhancing the surgeon's spatial awareness and understanding of the patient's unique anatomy. #AR #innovation #surgery

Imagine performing brain surgery with a 3D holographic view of your patient's anatomy, guiding your every move. This isn't science fiction -a revolutionary technology currently in testing. Here's how it can empowers surgeons: Enhanced Visualization: See a real-time 3D hologram directly on your patient, eliminating the need to switch between views. Flexible Registration: Choose from AI-based automatic, trace, or landmark registration for optimal surgical planning. Seamless Model Integration: Easily load segmented models and highlight important areas with the STL model importer. Realistic Visualization: View the surgical plan alongside original medical imaging for a comprehensive picture.

Iliac Aneurysm Reconstruction Using Real Imaging Data Check out these advanced 3D reconstructions of iliac aneurysms, created from real patient imaging data. Each reconstruction provides a detailed look into the anatomy, enabling more precise surgical planning and improved patient outcomes. 🩺 🔍 Why this is important: Real Case Data: Each model is based on real medical cases, offering highly accurate visualizations for complex procedures. Enhanced Precision: These 3D models help vascular surgeons anticipate challenges and plan with greater accuracy. Cutting-Edge Technology: By combining medical imaging with advanced 3D technology, we’re transforming vascular surgery preparation. #MedicalInnovation #3DPrinting #SurgicalPlanning #IliacAneurysm #HealthcareTechnology #DataFusion

What is the Spinal Surgery Robot?🔍 A groundbreaking technology, the Spinal Surgery Robot enhances surgical precision in spinal procedures. Comprising advanced components, it elevates the standard of care in spinal surgeries. How Each Component Works:🛠 1. Imaging & Planning🩻: High-res CT scans guide surgeons in planning optimal trajectories. 2. Image Registration🔄: Aligns pre-op imaging with real-time anatomy for pinpoint accuracy. 3. Patient Positioning🛏 : Ensures precise alignment for successful execution. 4. Robotic Arm🦾: Equipped with actuators, motors, and sensors for controlled, precise movements. 5. Surgeon Console👩💻🦾: Offers a 3D HD view; hand and foot controls ensure intuitive guidance. 6. Intraoperative Guidance🚀: Real-time imaging aids surgeons in instrument placement. 7. Instrumentation Placement🛠: Specialized tools attached to the robotic arm assist surgeons in precise screw placement. 8. Verification🔄: Continuous real-time feedback and safety checks validate planned trajectories. #biomedicalengineering #biomedicalengineer #SpinalSurgery #MedicalInnovation #HealthTech #PrecisionMedicine #RoboticsInSurgery #futureofhealthcare #clinicalengineering #clinicaldevelopment #healthcare #medicaldevices #medicalequipments #clinicalengineering #FayzaHaylani

🚨 Advancing Surgical Planning with 3D Modeling 🚨 I'm excited to share a breakthrough project I've been working on: a 3D model of vascular anatomy, developed using CT scan DICOM data. This specific model, created for a Chinese patient, will play a crucial role in the preoperative planning for an upcoming vascular surgery. 🔍 Why 3D Modeling? 3D models like this allow surgeons to: Accurately visualize and analyze the patient's unique anatomy. Identify potential vascular issues such as aneurysms, stenosis, or dissections. Improve surgical precision and reduce complications, especially in complex cases like aortic aneurysm repairs or stenting procedures. 💡 The Benefits: Patient-specific planning: Tailored approach for the patient's unique condition. Minimally invasive options: Plan procedures like endovascular aortic repair (EVAR) with confidence. Team collaboration: Surgeons, radiologists, and specialists can work together using this model for improved outcomes. By utilizing advanced 3D modeling, we're pushing the boundaries of personalized patient care and making surgeries safer and more effective. #medicalinnovation #vascularsurgery #3Dmodeling #healthcaretechnology #patientcare #CTscan #surgicalplanning #dicom #personalizedmedicine

🔬 The Future of Surgery: An Introduction to Robotic Medicine 🤖 In the rapidly evolving healthcare field, robotic medicine stands out as a groundbreaking innovation, reshaping the landscape of surgical procedures. Robotic-assisted surgery combines the precision of advanced robotics with the expertise of skilled surgeons, allowing for more accurate, minimally invasive procedures. What is Robotic Surgery? Robotic surgery involves using robotic systems to aid surgeons in performing complex operations. These systems typically include a camera arm and several mechanical arms with surgical instruments attached. The surgeon controls these arms from a console, viewing the surgical site through a high-definition 3D camera, which provides a magnified view. This setup offers several advantages: Enhanced Precision: The robotic arms can make tiny, precise movements that are impossible for the human hand, significantly reducing the risk of errors. Greater Flexibility: The instruments can move in ways that mimic and even exceed the range of motion of the human hand, allowing for more versatile surgical techniques. Better Control: The surgeon can operate from a comfortable, seated position at the console, reducing fatigue and allowing for more prolonged, concentrated efforts. #RoboticSurgery #MedicalInnovation #HealthcareTechnology #FutureOfMedicine #BiomedicalEngineering

❗ Third in the World MR spinal surgery ❗ Hey everyone in healthcare & XR. Mind-blowing news from Glasgow - surgeons just pulled off the UK's first mixed reality spinal surgery! They used MR tech to see inside the patient without looking away at screens and prepped with just 3 days of simulation training. Not to drop any hints... 😉 but this is exactly the kind of magic we love creating at Program-Ace. Whether it's VR surgical training or custom healthcare (and beyond) solutions, we're here to help bring your medical training into the future. Drop me a DM if you want to chat about similar innovations. #MixedReality #HealthTech #DigitalHealth #HealthcareXR

RETHINKING WHO BENEFITS FROM SIMULATION…..live virtual surgery at ESCRS Barcelona What an outstanding presentation by Dr. John Ferris and Dr. Ivo Ferreira during ESCRS 2024. On the ESCRS Tabalo stage these two serious surgical educators offered us reason to rethink where simulation can elevate surgical readiness. With a humourous and fast pace delivery of live virtual surgery, using the Eyesi Surgical Simulator, for highly challenging complex cataract surgery a big “What If” was posed to the audience. While performing live virtual surgery Dr. Ferreira showed us how advanced cataract techniques like vertical chopping can be trained for by already skilled surgeons wanting to grow further. The always curious teacher that he is Dr. Ferris pushed the boundaries still further. Using the Eyesi Simulator’s new 4.0 software to show how literally any complex cataract surgery scenario can be trained for Dr. Ferreira was presented with a surgical challenge that stretched this skilled surgeon to the brink. Simulation invites failure and failure affords a surgeon valuable accumlative experiences. This can inturn lead to deep learning and better cognitive decision making in surgery. Simulation is uniquely able to allow surgeons of all abilities intensive training for complex techniques free of risk. Thank you Dr. Ferris and Dr. Ferreira for giving us a glimpse into the future where simulation can be a pathway to continous improvement in cataract surgery. #escrs2024 #cataractsurgery #oftalmouniversity #OU #eyesisimulator #surgicaleducation #haagstreit #simulation #virtualreality

🌟 Revolutionizing traditional surgeries with the AR Spine Navigation System! 🚀 Imagine a seamless surgical experience where physicians can now maintain uninterrupted focus on the patient's affected area, eliminating the need for constant shifts in attention to screens. This cutting-edge technology integrates augmented reality to provide real-time, 3D visualization of critical imaging, such as X-rays and endoscopic views, directly into the surgeon's field of vision. 🏥💡 By streamlining the surgical workflow, the AR Spine Navigation System not only reduces surgical time but also minimizes the associated risks. Surgeons can now navigate with precision, making informed decisions on-the-fly, and enhancing overall patient outcomes. Embrace the future of surgery with this groundbreaking advancement! 🌐⚕️ #MedicalInnovation #SurgeryRevolution #ARTechnology #HealthcareAdvancement