Stereo vision-based tracking of soft tissue motion with application to online ablation control in laser microsurgery

Schoob Andreas; Kundrat Dennis; Kahrs Lueder A.; Ortmaier Tobias

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Stereo vision-based tracking of soft tissue motion with application to online ablation control in laser microsurgery

机译：基于立体视觉的软组织运动跟踪，应用于激光显微外科在线消融控制

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Recent research has revealed that image-based methods can enhance accuracy and safety in laser microsurgery. In this study, non-rigid tracking using surgical stereo imaging and its application to laser ablation is discussed. A recently developed motion estimation framework based on piecewise affine deformation modeling is extended by a mesh refinement step and considering texture information. This compensates for tracking inaccuracies potentially caused by inconsistent feature matches or drift. To facilitate online application of the method, computational load is reduced by concurrent processing and affine-invariant fusion of tracking and refinement results. The residual latency-dependent tracking error is further minimized by Kalman filter-based upsampling, considering a motion model in disparity space. Accuracy is assessed in laparoscopic, beating heart, and laryngeal sequences with challenging conditions, such as partial occlusions and significant deformation. Performance is compared with that of state-of-the-art methods. In addition, the online capability of the method is evaluated by tracking two motion patterns performed by a high-precision parallel-kinematic platform. Related experiments are discussed for tissue substitute and porcine soft tissue in order to compare performances in an ideal scenario and in a setup mimicking clinical conditions. Regarding the soft tissue trial, the tracking error can be significantly reduced from 0.72 mm to below 0.05 mm with mesh refinement. To demonstrate online laser path adaptation during ablation, the non-rigid tracking framework is integrated into a setup consisting of a surgical Er:YAG laser, a three-axis scanning unit, and a low-noise stereo camera. Regardless of the error source, such as laser to-camera registration, camera calibration, image-based tracking, and scanning latency, the ablation root mean square error is kept below 0.21 mm when the sample moves according to the aforementioned patterns. Final experiments regarding motion-compensated laser ablation of structurally deforming tissue highlight the potential of the method for vision-guided laser surgery. (C)) 2017 The Authors. Published by Elsevier B.V.

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来源
《Medical image analysis》 |2017年第2017期|共16页
作者
Schoob Andreas; Kundrat Dennis; Kahrs Lueder A.; Ortmaier Tobias;
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作者单位

Leibniz Univ Hannover Inst Mech Syst Appelstr 11a D-30167 Hannover Germany;

Leibniz Univ Hannover Inst Mech Syst Appelstr 11a D-30167 Hannover Germany;

Leibniz Univ Hannover Inst Mech Syst Appelstr 11a D-30167 Hannover Germany;

Leibniz Univ Hannover Inst Mech Syst Appelstr 11a D-30167 Hannover Germany;

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原文格式 PDF
正文语种 eng
中图分类影像诊断学;
关键词
Non-rigid tracking; Stereo vision; Epipolar constraint; Motion compensation;

机译：非刚性跟踪;立体声视觉;末极约束;运动补偿;

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机译：用ps和ns脉冲激光器进行软组织和硬组织消融的比较

Stereo vision-based tracking of soft tissue motion with application to online ablation control in laser microsurgery

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