基于实时电磁跟踪的高剂量率前列腺近距离治疗平台：临床工作流程与端到端验证

Real-time electromagnetic tracking-based treatment platform for high-dose-rate prostate brachytherapy: Clinical workflows and end-to-end validation.

作者信息

Beaulieu Luc, Racine Emmanuel, Han Dae Yup, Vigneault Eric, Hsu I-Chow, Cunha J Adam M

机构信息

Département de physique, de génie physique et d'optique et Centre de recherche sur le cancer de l'Université Laval, CHU de Québec, Québec, Québec, Canada; Département de radio-oncologie et Centre de recherche du CHU de Québec, CHU de Québec - Université Laval, Québec, Québec, Canada; Department of Radiation Oncology, University of California San Francisco, San Francisco.

出版信息

Brachytherapy. 2018 Jan-Feb;17(1):103-110. doi: 10.1016/j.brachy.2017.04.247. Epub 2017 May 30.

DOI:10.1016/j.brachy.2017.04.247

PMID:28576644

Abstract

PURPOSE

New technologies were integrated into a novel treatment platform combining electromagnetically (EM) tracked catheters, a 3D ultrasound (3DUS) imaging device, and a new treatment planning system to provide a real-time prostate high-dose-rate (HDR) brachytherapy treatment system. This work defines workflows for offline CT and online 3DUS planning scenarios and preclinical end-to-end validation of the platform.

METHODS AND MATERIALS

The platform is composed of an EM-tracked stylet, a EM-tracked 3DUS probe, and an EM-tracked template guide, all used with the NDI Aurora field generator (NDI, Ontario, Canada). The treatment planning system performs continuous position and angular readings from all three EM sensors into a streamlined environment that allows for (1) contouring; (2) planning; (3) catheter insertion guidance and reconstruction; (4) QA of catheter path and tip position; and (5) exporting to an afterloader. Data were gathered on the times required for the various key steps of the 3DUS-based workflow.

RESULTS

The complete 3DUS-based workflow on 16-catheter implant phantoms took approximately 15 min. This time is expected to increase for actual patients. Plan generation is fast (7.6 ± 2.5s) and the initial catheter reconstruction with updated dose distribution is obtained at no (time) cost as part of the insertion process. Subsequent catheter reconstruction takes on average 10.5 ± 3.1s per catheter, representing less than 3 min for a 16-catheter implant.

CONCLUSIONS

This preclinical study suggests that EM technology could help to significantly streamline real-time US-based high-dose-rate prostate brachytherapy.

摘要

目的

将新技术集成到一个新型治疗平台中，该平台结合了电磁（EM）跟踪导管、三维超声（3DUS）成像设备和新的治疗计划系统，以提供实时前列腺高剂量率（HDR）近距离放射治疗系统。这项工作定义了离线CT和在线3DUS规划方案的工作流程以及该平台的临床前端到端验证。

方法和材料

该平台由一个EM跟踪探针、一个EM跟踪3DUS探头和一个EM跟踪模板导向器组成，所有这些都与NDI奥罗拉场发生器（NDI，加拿大安大略省）一起使用。治疗计划系统将来自所有三个EM传感器的连续位置和角度读数输入到一个简化的环境中，该环境允许（1）轮廓勾画；（2）计划制定；（3）导管插入引导和重建；（4）导管路径和尖端位置的质量保证；以及（5）导出到后装治疗机。收集了基于3DUS的工作流程各个关键步骤所需的时间数据。

结果

在16导管植入模型上完成基于3DUS的完整工作流程大约需要15分钟。实际患者的时间预计会增加。计划生成速度很快（7.6±2.5秒），并且作为插入过程的一部分，在不增加（时间）成本的情况下获得了具有更新剂量分布的初始导管重建。随后每次导管重建平均需要10.5±3.1秒，对于16导管植入来说不到3分钟。

结论

这项临床前研究表明，EM技术有助于显著简化基于实时超声的高剂量率前列腺近距离放射治疗。

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基于实时电磁跟踪的高剂量率前列腺近距离治疗平台：临床工作流程与端到端验证

Real-time electromagnetic tracking-based treatment platform for high-dose-rate prostate brachytherapy: Clinical workflows and end-to-end validation.

作者信息

机构信息

出版信息

PURPOSE

METHODS AND MATERIALS

RESULTS

CONCLUSIONS

目的

方法和材料

结果

结论

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