Computer Graphics and VisualizationPublicationsApplication of augmented reality in robot-assisted mitral valve repair surgery: A feasibility study

Innovations: Technology and Techniques in Cardiothoracic and Vascular Surgery

Application of augmented reality in robot-assisted mitral valve repair surgery: A feasibility study

Jette J. Peek, Klaus Hildebrandt, Xucong Zhang, Rohit Kharbanda, Maurice Oudeman, Robert Klautz, Meindert Palmen, and Edris Mahtab

Publisher Cite More

Objective: In mitral valve surgery, it is important to be aware of adjacent intraoperatively invisible anatomy, to avoid complications and enhance safety. In this feasibility study, we aimed to develop semi-automated intraoperative 3-dimensional (3D) augmented reality (3D-AR) overlays for robotic mitral valve repair. Methods: In 5 patients undergoing robot-assisted mitral valve repair, a 3D point cloud was generated, using intraoperatively recorded images from both eyes of the stereoscopic da Vinci camera (Intuitive Surgical, Sunnyvale, CA, USA). An intraoperative 3D-AR overlay was created using a scale-adaptive iterative closest point algorithm and landmarks placed on the mitral valve annulus. Finally, important anatomical structures such as the circumflex artery, Koch’s triangle, and aortic valve leaflets could be visualized as a 3D-AR overlay on top of the surgical vision. To evaluate the accuracy, these 3D point clouds were validated by calculating the 3D point cloud accuracy and landmark registration error (LRE). Results: The 3D point clouds and 3D-AR overlays were successfully created for all 5 patients. The 3D point clouds were accurate, with a median error of −0.92 mm, and the LRE was 5.12 mm. The time for creating the 3D-AR overlay was approximately 5 min. Besides creating the 3D-AR overlays, we could visualize the models directly within the robotic console during the surgical procedure. Conclusions: We present an algorithm for generating accurate semiautomatic 3D-AR overlays, visualizing essential anatomical structures during robot-assisted mitral valve repair. This may lead to automated intraoperative 3D-AR vision during robotic cardiac surgery, with the potential of increasing safety, accuracy, and efficiency.

More Information

Publisher

Citation

Jette J. Peek, Klaus Hildebrandt, Xucong Zhang, Rohit Kharbanda, Maurice Oudeman, Robert Klautz, Meindert Palmen, and Edris Mahtab, Application of augmented reality in robot-assisted mitral valve repair surgery: A feasibility study, Innovations: Technology and Techniques in Cardiothoracic and Vascular Surgery, 2025.

BibTex 

@article{bib:peek:2025,
    author       = { Peek, Jette J. and Hildebrandt, Klaus and Zhang, Xucong and Kharbanda, Rohit and Oudeman, Maurice and Klautz, Robert and Palmen, Meindert and Mahtab, Edris },    
    title        = { Application of augmented reality in robot-assisted mitral valve repair surgery: A feasibility study },
    journal      = { Innovations: Technology and Techniques in Cardiothoracic and Vascular Surgery },
    year         = { 2025 },
    doi          = { 10.1177/15569845251367418 },
    url          = { https://publications.graphics.tudelft.nl/papers/838 },
}