Su Li-Ming, Vagvolgyi Balazs P, Agarwal Rahul, Reiley Carol E, Taylor Russell H, Hager Gregory D
Department of Urology, University of Florida College of Medicine, Gainesville, Florida 32610, USA.
Urology. 2009 Apr;73(4):896-900. doi: 10.1016/j.urology.2008.11.040. Epub 2009 Feb 4.
To investigate a markerless tracking system for real-time stereo-endoscopic visualization of preoperative computed tomographic imaging as an augmented display during robot-assisted laparoscopic partial nephrectomy.
Stereoscopic video segments of a patient undergoing robot-assisted laparoscopic partial nephrectomy for tumor and another for a partial staghorn renal calculus were processed to evaluate the performance of a three-dimensional (3D)-to-3D registration algorithm. After both cases, we registered a segment of the video recording to the corresponding preoperative 3D-computed tomography image. After calibrating the camera and overlay, 3D-to-3D registration was created between the model and the surgical recording using a modified iterative closest point technique. Image-based tracking technology tracked selected fixed points on the kidney surface to augment the image-to-model registration.
Our investigation has demonstrated that we can identify and track the kidney surface in real time when applied to intraoperative video recordings and overlay the 3D models of the kidney, tumor (or stone), and collecting system semitransparently. Using a basic computer research platform, we achieved an update rate of 10 Hz and an overlay latency of 4 frames. The accuracy of the 3D registration was 1 mm.
Augmented reality overlay of reconstructed 3D-computed tomography images onto real-time stereo video footage is possible using iterative closest point and image-based surface tracking technology that does not use external navigation tracking systems or preplaced surface markers. Additional studies are needed to assess the precision and to achieve fully automated registration and display for intraoperative use.
研究一种无标记跟踪系统,用于在机器人辅助腹腔镜部分肾切除术期间,将术前计算机断层扫描成像进行实时立体内镜可视化,作为增强显示。
对一名因肿瘤接受机器人辅助腹腔镜部分肾切除术的患者以及另一名因部分鹿角形肾结石接受该手术的患者的立体视频片段进行处理,以评估三维(3D)到3D配准算法的性能。在这两例手术之后,我们将一段视频记录与相应的术前3D计算机断层扫描图像进行配准。在对摄像头和叠加进行校准后,使用改进的迭代最近点技术在模型和手术记录之间创建3D到3D配准。基于图像的跟踪技术跟踪肾表面选定的固定点,以增强图像到模型的配准。
我们的研究表明,当应用于术中视频记录时,我们可以实时识别和跟踪肾表面,并将肾、肿瘤(或结石)和集合系统的3D模型半透明叠加。使用基本的计算机研究平台,我们实现了10Hz的更新率和4帧的叠加延迟。3D配准的精度为1mm。
使用迭代最近点和基于图像的表面跟踪技术,无需外部导航跟踪系统或预先放置的表面标记,就可以将重建的3D计算机断层扫描图像增强现实叠加到实时立体视频画面上。需要进一步研究来评估精度,并实现术中使用的全自动配准和显示。
