The VARTID surgical augmented reality (AR) solution aids surgeons in total knee replacement operations. Our system uses 3D visualization and planning to create individual plans tailored to patients and to ensure efficiency and precision.
It ensures excellent flexibility and accuracy by utilizing real-time data, 3D projections and navigation.
Additionally, it records the entire surgical process, providing comprehensive digital postoperative documentation and surgical data management for publications and educational purposes.
It serves as an outstanding educational resource, offering precise and secure surgical training, as well as hands-on practice on artificial bones, while facilitating vivid procedure demonstrations, collaborative case reviews, and interactive learning.
The Foundation of the System
Our patented technology operates seamlessly within a system that incorporates a stationary unit, housing a proprietary spatial dynamics sensor known for its exceptional precision and ease of integration.
The Magic Leap AR glasses offer outstanding advantages due to their dynamic development background and advanced sensor island technology. They are renowned for their user-friendliness, adaptability, and the unique capability for co-presence and remote collaboration.
State-of-the-art Technology
The “Spatial Dynamics Sensor,” powered by our AI technology, continuously feeds real-time information to the virtual glasses. The algorithm plays a crucial role in the surgical process, as it automatically identifies key reference points on X-ray and CT images, as well as within the anatomical body itself which completely removes the need for external markers. This automation ensures the precise alignment of anatomical, mechanical, and vertical axes throughout the entirety of the procedure.
By leveraging data from the anatomical, mechanical, and vertical axes, the algorithm determines the optimal positions for cutting blocks, templates, and prostheses. This tailored approach ensures that each surgical procedure is uniquely suited to the patient’s individual needs, further enhancing the precision and effectiveness of our solution.
As a result, the ‘Spatial Dynamics Sensor’ the soul of VARTID, provides more reliability and accuracy to surgeons during operation, due to thee ability to follow movement in a way that has not been experienced before.
The VARTID surgical augmented reality (AR) solution aids surgeons in total knee replacement operations. Our system uses 3D visualization and planning to create individual plans tailored to patients and to ensure efficiency and precision.
It ensures excellent flexibility and accuracy by utilizing real-time data, 3D projections and navigation.
Additionally, it records the entire surgical process, providing comprehensive digital postoperative documentation and surgical data management for publications and educational purposes.
It serves as an outstanding educational resource, offering precise and secure surgical training, as well as hands-on practice on artificial bones, while facilitating vivid procedure demonstrations, collaborative case reviews, and interactive learning.
The Foundation of the System
Our patented technology operates seamlessly within a system that incorporates a stationary unit, housing a proprietary spatial dynamics sensor known for its exceptional precision and ease of integration.
The Magic Leap AR glasses offer outstanding advantages due to their dynamic development background and advanced sensor island technology. They are renowned for their user-friendliness, adaptability, and the unique capability for co-presence and remote collaboration.
State-of-the-art Technology
The “Spatial Dynamics Sensor,” powered by our AI technology, continuously feeds real-time information to the virtual glasses. The algorithm plays a crucial role in the surgical process, as it automatically identifies key reference points on X-ray and CT images, as well as within the anatomical body itself which completely removes the need for external markers. This automation ensures the precise alignment of anatomical, mechanical, and vertical axes throughout the entirety of the procedure.
By leveraging data from the anatomical, mechanical, and vertical axes, the algorithm determines the optimal positions for cutting blocks, templates, and prostheses. This tailored approach ensures that each surgical procedure is uniquely suited to the patient’s individual needs, further enhancing the precision and effectiveness of our solution.
As a result, the ‘Spatial Dynamics Sensor’ the soul of VARTID, provides more reliability and accuracy to surgeons during operation, due to thee ability to follow movement in a way that has not been experienced before.
Features
Pre-operative planning
It provides a 3D visualization of CT images, enabling surgeons to gain deeper insights. Personalized preplanning allowing the creation of patient-specific 3D preoperative designs. The system calculates resection parameters with remarkable accuracy, including depth and angle.
Intraoperative navigation
The cloud-based system offers continuous video documentation to capture the entire surgical process, promoting transparency and learning. During surgery, real-time 3D projections serve as precise guides, ensuring every step is executed with utmost precision. An intuitive interface makes it user-friendly and accessible.
Features
Pre-operative planning
It provides a 3D visualization of CT images, enabling surgeons to gain deeper insights. Personalized preplanning allowing the creation of patient-specific 3D preoperative designs. The system calculates resection parameters with remarkable accuracy, including depth and angle.
Intraoperative navigation
The cloud-based system offers continuous video documentation to capture the entire surgical process, promoting transparency and learning. During surgery, real-time 3D projections serve as precise guides, ensuring every step is executed with utmost precision. An intuitive interface makes it user-friendly and accessible.
Benefits
Sustainable
and transparent
Automation
and Efficiency
Accurate Positioning
and Alignment
Anatomical Reference
Tracking
Remote Collaboration, Training, Patient Education
Personalized
Surgery