Computer Graphics and VisualizationPublicationsA novel 3D image registration technique for augmented reality vision in minimally invasive thoracoscopic pulmonary segmentectomy

International Journal of Computer Assisted Radiology and Surgery

A novel 3D image registration technique for augmented reality vision in minimally invasive thoracoscopic pulmonary segmentectomy

Jette J. Peek, Xucong Zhang, Klaus Hildebrandt, Samuel Alexander Max, Amir Sadeghi, Ad Bogers, and Edris Mahtab

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Purpose In this feasibility study, we aimed to create a dedicated pulmonary augmented reality (AR) workflow to enable a semi-automated intraoperative overlay of the pulmonary anatomy during video-assisted thoracoscopic surgery (VATS) or robot-assisted thoracoscopic surgery (RATS). Methods Initially, the stereoscopic cameras were calibrated to obtain the intrinsic camera parameters. Intraoperatively, stereoscopic images were recorded and a 3D point cloud was generated from these images. By manually selecting the bifurcation key points, the 3D segmentation (from the diagnostic CT scan) was registered onto the intraoperative 3D point cloud. Results Image reprojection errors were 0.34 and 0.22 pixels for the VATS and RATS cameras, respectively. We created disparity maps and point clouds for all eight patients. Time for creation of the 3D AR overlay was 5 min. Validation of the point clouds was performed, resulting in a median absolute error of 0.20 mm [IQR 0.10–0.54]. We were able to visualize the AR overlay and identify the arterial bifurcations adequately for five patients. In addition to creating AR overlays of the visible or invisible structures intraoperatively, we successfully visualized branch labels and altered the transparency of the overlays. Conclusion An algorithm was developed transforming the operative field into a 3D point cloud surface. This allowed for an accurate registration and visualization of preoperative 3D models. Using this system, surgeons can navigate through the patient's anatomy intraoperatively, especially during crucial moments, by visualizing otherwise invisible structures. This proposed registration method lays the groundwork for automated intraoperative AR navigation during minimally invasive pulmonary resections.

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Jette J. Peek, Xucong Zhang, Klaus Hildebrandt, Samuel Alexander Max, Amir Sadeghi, Ad Bogers, and Edris Mahtab, A novel 3D image registration technique for augmented reality vision in minimally invasive thoracoscopic pulmonary segmentectomy, International Journal of Computer Assisted Radiology and Surgery, 2025.

BibTex 

@article{bib:peek:2025,
    author       = { Peek, Jette J. and Zhang, Xucong and Hildebrandt, Klaus and Max, Samuel Alexander and Sadeghi, Amir and Bogers, Ad and Mahtab, Edris },    
    title        = { A novel 3D image registration technique for augmented reality vision in minimally invasive thoracoscopic pulmonary segmentectomy },
    journal      = { International Journal of Computer Assisted Radiology and Surgery },
    year         = { 2025 },
    publisher    = { Springer },
    doi          = { 10.1007/s11548-024-03308-7 },
    url          = { https://publications.graphics.tudelft.nl/papers/837 },
}