Imagine a surgery where every move you make is guided by real-time, 3D, patient-specific visualizations. Where surgeon’s precision is enhanced by augmented reality (AR) and artificial intelligence (AI), making even the most complex procedures safer and more efficient. Medivis Surgical AR is not a distant dream—it’s the present reality, transforming operating rooms worldwide. With cutting-edge AR technology, Medivis offers unprecedented surgical precision, allowing healthcare professionals to work smarter, faster, and with greater accuracy.
What Makes Medivis Surgical AR Stand Out?
- Seamless 3D Visualizations: Imagine seeing a 3D model of the patient’s anatomy in real time, accurately superimposed over the body. Medivis allows surgeons to visualize the entire surgical landscape, enhancing both decision-making and surgical accuracy.
- AI-Powered Insights: Medivis is not just a passive tool; it actively aids in predicting surgical outcomes and suggests the best course of action, based on advanced algorithms and real-time data.
- Gesture-Controlled Interface: Surgeons can interact with the virtual model using simple hand gestures, making the entire process intuitive and hands-free. This feature eliminates the need for physical controls during the procedure, allowing the surgeon to focus entirely on the task at hand.
- Enhanced Precision in Minimally Invasive Surgery: With highly accurate 3D guidance, Medivis empowers surgeons to perform minimally invasive surgeries, reducing patient recovery times and improving overall safety.
- Integration with Existing Systems: Medivis works in harmony with the current medical imaging systems, making adoption seamless for hospitals without requiring major infrastructure changes.
How Do Patents Elevate Medivis Surgical AR?
US11992934B2: Real-Time 3D Integration with Video Feeds
One of Medivis’s core features is its ability to merge 3D virtual models with real-time video feeds. This patent ensures that surgeons receive an AR display showing both the virtual model and live video data, improving their ability to make real-time decisions based on accurate visual feedback. It’s the equivalent of having a detailed roadmap right in front of you while driving through an unfamiliar area—making navigation much more intuitive.
WO2023055907A1: Instrument Tracking & Virtual Object Interaction
By integrating physical instruments into the AR space, this patent enables real-time tracking of surgical tools. It ensures that any movement of the instrument is reflected in the AR model, providing immediate feedback to the surgeon. This real-time feedback helps improve the accuracy of surgical actions and reduces potential errors during procedures.
US11307653B1: Gesture-Based Interaction for Enhanced Control
This innovation allows surgeons to interact with the 3D medical model through gestures, without needing to touch any physical device. The system detects hand movements and translates them into actions within the AR display. This makes the interface intuitive, reducing the learning curve for users and improving the surgical workflow.
US11138806B1: Composite Imaging for Real-Time Visualization
Medivis combines real-time camera images with 3D models to create a composite image that is displayed on a surgeon’s headset. This provides real-time visualization of the surgical field, offering both physical and virtual perspectives simultaneously. By seamlessly integrating both, the system ensures that surgeons have a comprehensive view of the situation as it unfolds.
US11395715B2: Holographic 3D Models for Precision Surgery
The use of holographic 3D models in surgery provides an extra layer of visualization, helping surgeons see beyond the surface. By creating an interactive 3D model of a patient’s anatomy, this technology guides surgeons to areas that may be difficult to visualize with traditional imaging alone, improving surgical precision.
How Does Medivis Surgical AR Compare to Other Products?
While there are several AR-based surgical tools in the market, Medivis sets itself apart by focusing on real-time interaction and precise guidance during actual surgeries, not just training. Here’s how Medivis compares to its competitors:
- Microsoft HoloLens: Though HoloLens provides AR capabilities, it is not specifically designed for surgery. Medivis focuses on medical-specific applications, offering real-time, interactive visualizations that support live surgical procedures.
- Osso VR: Osso VR excels in surgical training, but Medivis takes it a step further by offering live, real-time surgical assistance with a direct impact on patient outcomes.
- Surgical Theater: Surgical Theater provides a similar 3D visualization system, but Medivis incorporates AI-powered insights and integrates real-time instrument tracking, making it a more dynamic tool for surgeons.
Medivis Surgical AR is setting the gold standard in the surgical field, transforming how surgeons work and how surgeries are performed. With the perfect combination of AR, AI, and real-time data, it is the technology that the future of surgery deserves. By providing enhanced accuracy, greater precision, and seamless integration, Medivis is not just making surgeries safer—it’s making them smarter.