Careful preoperative planning is inevitable in medical industry, which helps improving greater accuracy in surgical procedures. In the rapidly evolving landscape of medical industry Virtual Reality has emerged as a new tool in the field of laparoscopic surgery. Laparoscopic procedures also know as minimally invasive surgeries, involve making small incisions and using a camera and specialized instruments to perform surgeries. It requires expertise in the field for success in surgeries. In surgical procedures the 3D images of organs helps surgeons to better prepare for surgery. These high-quality medical images provide excellent discrimination properties, which are necessary to differentiate anatomical structures and understand highly variable morphologies like, for instance, in congenital heart disease. However, these 3D volumetric images are still viewed as 2D slices leaving important depth information behind, which may be insufficient for complex cases. By planning surgery using 2D slices, surgeons have to create the 3D model in their minds, with obvious potential flaws. XR Horizon delivers a Mixed Reality Surgery Solution for Minimally Invasive Procedures, enhancing surgical precision, visualization, and outcomes.
We XR Horizon is a premier Metaverse development firm, specializing in AR, VR, MR and AI solutions are proud to introduce the
latest advancements in laparoscopic surgical practices through the integration of MR technology
What Is Mixed Reality Laproscopy?
Mixed reality laparoscopic surgery merges virtual elements with the actual surgical field, enabling surgeons to view computer-generated images and data overlaid in real time through a Mixed Reality Surgical Visualization Platform for Surgeons, enhancing precision, surgical planning, and patient outcomes.
Next-Gen Mixed Reality Platform for Smarter Surgeries
Let’s see the features.
Cross-Disciplinary Collaboration- Facilitates collaboration between different medical specialties by integrating medical, technological, and educational expertise to enhance surgical procedures using Augmented Reality
Improved Ergonomics – Provides more ergonomic solutions by allowing surgeons to view critical information or imaging data
directly within their field of vision reducing the need for constant head and neck movement during long surgeries
Clinical Training and Education- Enables medical schools and teaching hospitals to create immersive simulations for training purposes
enhancing knowledge sharing, continuous medical education, and training in specialized procedures or techniques
High Resolution Surgical Procedure Visualizations- Provide detailed and accurate views of surgical procedures in real-time, integrating virtual and real-world elements seamlessly
Vital Tracking – Monitor and display real-time physiological parameters and vital signs of the patient during the surgical procedure enhancing the safety, precision, and monitoring capabilities in laparoscopic surgery.
Real-time Screen Capture and Recording- Records what surgeons see through augmented reality headsets, combining real-time video and virtual overlays for training, analysis, and documentation
Remote Consultations and Collaboration – Enable doctors to conduct virtual consultations with colleagues at other hospitals or specialists located elsewhere allowing real-time collaboration on patient cases, sharing of medical imaging data, and discussion of treatment plans without the need for physical trave
How It Works?
Mixed Reality (MR) in laparoscopic surgery improves training through realistic simulations, supports preoperative planning with patient-specific 3D models, and enhances surgeries with Augmented Reality (AR) overlays, advancing surgical precision and patient care.
We utilize the latest MR technology, enabling immersive experiences, swift development and rapid time-to-market. Our solution is
engineered to seamlessly interface with premier industry hardware, guaranteeing exceptional performance and reliability.
XR Horizon’s AR & MR Surgical Assistance System for Laparoscopic Surgery enhances real-time visualization by overlaying critical data and 3D anatomical insights directly into the surgeon’s view, improving precision, decision-making, and patient outcomes.
Connect us to know more in detail.
