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迈向用于机器人辅助部分肾切除术的实用且精确的基于触觉的图像引导

Toward Practical and Accurate Touch-Based Image Guidance for Robotic Partial Nephrectomy.

作者信息

Ferguson James M, Pitt E Bryn, Remirez Andria A, Siebold Michael A, Kuntz Alan, Kavoussi Nicholas L, Barth Eric J, Herrell S Duke, Webster Robert J

机构信息

Department of Mechanical Engineering, Vanderbilt University, Nashville, TN 37235, USA.

Department of Electrical Engineering, Vanderbilt University, Nashville, TN 37235, USA.

出版信息

IEEE Trans Med Robot Bionics. 2020 May;2(2):196-205. doi: 10.1109/tmrb.2020.2989661. Epub 2020 May 1.

DOI:10.1109/tmrb.2020.2989661
PMID:36176345
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9518960/
Abstract

Partial nephrectomy involves removing a tumor while sparing surrounding healthy kidney tissue. Compared to total kidney removal, partial nephrectomy improves outcomes for patients but is underutilized because it is challenging to accomplish minimally invasively, requiring accurate spatial awareness of unseen subsurface anatomy. Image guidance can enhance spatial awareness by displaying a 3D model of anatomical relationships derived from medical imaging information. It has been qualitatively suggested that the da Vinci robot is well suited to facilitate image guidance through touch-based registration. In this paper we validate and advance this concept toward real-world use in several important ways. First, we contribute the first quantitative accuracy evaluation of touch-based registration with the da Vinci. Next, we demonstrate real-time touch-based registration and display of medical images for the first time. Lastly, we perform the first experiments validating use of touch-based image guidance to improve a surgeon's ability to localize subsurface anatomical features in a geometrically realistic phantom.

摘要

部分肾切除术是指在保留周围健康肾组织的同时切除肿瘤。与全肾切除相比,部分肾切除术可改善患者的治疗效果,但由于其微创操作具有挑战性,需要对不可见的地下解剖结构有准确的空间感知,因此未得到充分利用。图像引导可以通过显示从医学成像信息中导出的解剖关系的3D模型来增强空间感知。定性研究表明,达芬奇机器人非常适合通过基于触摸的配准来促进图像引导。在本文中,我们通过几种重要方式对这一概念进行了验证,并将其推进到实际应用中。首先,我们首次对达芬奇机器人基于触摸的配准进行了定量准确性评估。其次,我们首次展示了基于触摸的实时配准和医学图像显示。最后,我们进行了首次实验,验证了基于触摸的图像引导在提高外科医生在几何逼真的模型中定位地下解剖特征能力方面的应用。

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