基于电磁超声的腹腔镜肝肿瘤消融导航技术的设计与实现。

Design and implementation of an electromagnetic ultrasound-based navigation technique for laparoscopic ablation of liver tumors.

机构信息

ARTORG Center for Biomedical Engineering Research, University of Bern, Bern, Switzerland.

Department of Visceral Surgery and Medicine, Inselspital, Bern University Hospital, University of Bern, Bern, Switzerland.

出版信息

Surg Endosc. 2018 Jul;32(7):3410-3419. doi: 10.1007/s00464-018-6088-1. Epub 2018 Feb 12.

DOI:10.1007/s00464-018-6088-1

PMID:29435744

Abstract

BACKGROUND

Efficient laparoscopic ablation of liver tumors relies on precise tumor visualization and accurate positioning of ablation probes. This study evaluates positional accuracy and procedural efficiency of a dynamic navigation technique based on electromagnetic-tracked laparoscopic ultrasound (ELUS) for laparoscopic ablation of liver tumors.

METHODS

The proposed navigation approach combines intraoperative 2D ELUS-based planning for navigated positioning of ablation probes, with immediate 3D ELUS-based validation of intrahepatic probe position. The environmental influence on electromagnetic-tracking stability was evaluated in the operation room. Accuracy of navigated ablation probe positioning assessed as the target-positioning error (TPE), and procedural efficiency defined as time efforts for target definition/navigated targeting and number of probe repositionings, were evaluated in a laparoscopic model and compared with conventional laparoscopic ultrasound (LUS) guidance.

RESULTS

The operation-room environment showed interferences < 1 mm on the EM-tracking system. A total of 60 targeting attempts were conducted by three surgeons, with ten targeting attempts using ELUS and ten using conventional LUS each. Median TPE and time for targeting using ELUS and LUS were 4.2 mm (IQR 2.9-5.3 mm) versus 6 mm (IQR 4.7-7.5 mm), and 39 s (IQR 24-47 s) versus 76 s (IQR 47-121 s), respectively (p < 0.01 each). With ELUS, median time for target definition was 48.5 s, with 0 ablation probe repositionings compared to 17 when using LUS. The navigation technique was rated with a mean score of 85.5 on a Standard Usability Scale.

CONCLUSIONS

The proposed ELUS-based navigation approach allows for accurate and efficient targeting of liver tumors in a laparoscopic model. Focusing on a dynamic and tumor-targeted navigation technique relying on intraoperative imaging, this avoids potential inaccuracies due to organ deformation and yields a user-friendly technique for efficient laparoscopic ablation of liver tumors.

摘要

背景

高效的腹腔镜肿瘤消融依赖于精确的肿瘤可视化和消融探针的准确定位。本研究评估了基于电磁跟踪腹腔镜超声（ELUS）的动态导航技术在腹腔镜肝肿瘤消融中的定位准确性和手术效率。

方法

该导航方法结合术中基于 2D ELUS 的导航规划，对消融探针进行导航定位，同时立即基于术中 3D ELUS 验证肝内探针位置。在手术室中评估了电磁跟踪稳定性的环境影响。导航消融探针定位的准确性评估为目标定位误差（TPE），并定义为目标定义/导航靶向的时间和探针重新定位的次数，与传统腹腔镜超声（LUS）引导进行比较。

结果

手术室环境对 EM 跟踪系统的干扰<1mm。三位外科医生共进行了 60 次靶向尝试，其中 ELUS 组和常规 LUS 组各进行了 10 次靶向尝试。ELUS 和 LUS 的中位 TPE 和靶向时间分别为 4.2mm（IQR 2.9-5.3mm）与 6mm（IQR 4.7-7.5mm），39s（IQR 24-47s）与 76s（IQR 47-121s）（p<0.01 各）。ELUS 中位目标定义时间为 48.5s，无消融探针重新定位，而 LUS 为 17 次。该导航技术在标准可用性量表上的平均得分为 85.5 分。

结论

该基于 ELUS 的导航方法可在腹腔镜模型中实现肝肿瘤的精确和高效靶向。该方法侧重于基于术中成像的动态和肿瘤靶向导航技术，避免了由于器官变形引起的潜在不准确，并为肝肿瘤的高效腹腔镜消融提供了用户友好的技术。

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基于电磁超声的腹腔镜肝肿瘤消融导航技术的设计与实现。

Design and implementation of an electromagnetic ultrasound-based navigation technique for laparoscopic ablation of liver tumors.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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