设计和开发用于电磁跟踪器的适配器,以执行导航腹腔镜射频消融。

Philipp Hildebrand, Armin Besirevic, Markus Kleemann, Stefan Schlichting, Volker Martens, Achim Schweikard, Hans-Peter Bruch
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引用次数: 4

摘要

背景:腹腔镜射频消融术(RFA)是一种公认的治疗不可切除肝肿瘤的方法,与其他技术相比,它结合了微创和外科手术的优点。腹腔镜下射频消融术的主要任务是精确的置针以达到完全的肿瘤消融。使用基于超声波的腹腔镜在线导航系统可以提高穿刺的安全性和准确性。为了将这样的系统与腹腔镜超声(LUS)换能器或RFA针连接,需要特别设计的适配器。在本文中,我们介绍了我们的第一个经验和原型不同灭菌适配器的电磁导航系统的腹腔镜RFA。方法:采用标准的三维CAD软件构建所有适配器。适配器由医用不锈钢合金和聚醚酮(PEEK)制成。原型是用铝和聚氧甲基乙烯(POM)制造的。我们设计并开发了几个适配器,用于连接不同RFA针和腹腔镜超声换能器的电磁跟踪系统。结果:根据早期的经验,最初版本的适配器,无菌适配器已开发仅使用生物相容性材料。经过简短的介绍,适配器可以在无菌条件下安装在腹腔镜超声探头和RFA针上,没有任何困难。实验室测试表明,该适配器对腹腔镜导航系统无干扰。肝脏的解剖标志可以安全地到达。该适配器具有良好的可行性、工效性、灭菌性和稳定性。结论:可用适配器的开发是腹腔镜导航RFA针准确跟踪和三维导航超声数据采集的前提。我们设计,测试和使用不同的适配器用于腹腔镜导航系统,以改善腹腔镜RFA。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Design and development of adapters for electromagnetic trackers to perform navigated laparoscopic radiofrequency ablation.

Background: Laparoscopic radiofrequency ablation (RFA) is an accepted approach to treat unresectable liver tumours distinguishing itself from other techniques by combining minimal invasiveness and the advantages of a surgical approach. The major task of laparoscopic RFA is the accurate needle placement to achieve complete tumour ablation. The use of an ultrasound-based, laparoscopic online-navigation system could increase the safety and accuracy of punctures. To connect such a system with the laparoscopic ultrasound (LUS) transducer or the RFA needle especially designed adapters are needed. In this article we present our first experiences and prototypes for different sterilizable adapters for an electromagnetic navigation system for laparoscopic RFA.

Methods: All adapters were constructed with the help of a standard 3D CAD software. The adapters were built from medical stainless steel alloys and polyetherketone (PEEK). Prototypes were built in aluminium and polyoxymethilen (POM). We have designed and developed several adapters for the connection of electromagnetical tracking systems with different RFA needles and a laparoscopic ultrasound transducers.

Results: Based on earlier experiences of the initial version of the adapter, sterilisable adapters have been developed using biocompatible materials only. After short introduction, the adapters could be mounted to the laparoscopic ultrasound probe and the RFA needle under sterile conditions without any difficulties. Laboratory tests showed no disturbance of laparoscopic navigation system by the adapters. Anatomic landmarks in the liver could be safely reached. The adapters showed good feasibility, ergonomics, sterilizability and stability.

Conclusion: The development of usable adapters is the prerequisite for accurate tracking of a RFA needle for laparoscopic navigation purposes as well as 3D navigated ultrasound data acquisition. We designed, tested and used different adapters for the use of a laparoscopic navigation system for the improvement of laparoscopic RFA.

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