Magnetic resonance-only rapid on-table planning and immediate treatment for spine metastases

IF 3.4 Q2 ONCOLOGY

Physics and Imaging in Radiation Oncology Pub Date : 2025-06-11 DOI:10.1016/j.phro.2025.100791

Jerrold E. Kielbasa, Logan Kimble, Justin Rineer, Cameron W. Swanick, Patrick Kelly, Amish P. Shah

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Abstract

Background and purpose

This work aims to develop a magnetic resonance (MR)-only treatment planning protocol for integration into magnetic resonance simulation (MR-SIM), on-table treatment planning, and immediate treatment workflow for rapid palliation of painful spine metastases.

Materials and methods

Thirty-five treatment plans from healthy volunteers were generated on MR-SIM scans using a protocol including: (1) a library of 4 planning target volume (PTV) structures based on vertebral level, (2) default beam templates covering the PTVs while avoiding organs at risk (OAR), (3) bulk density assignments for dose calculations, and (4) a single set of dose optimization parameters. We transferred each plan to the patient’s prior computed tomography simulation (CT-SIM) images and compared dosimetric parameters. A time study was performed on the MR-SIM, on-table planning, and immediate treatment workflow for all 35 cases using healthy volunteers.

Results

All bulk density MR-SIM plans resulted in acceptable dose distributions, with 100 % deemed appropriate for treatment by two physicians. The maximum point dose was within 3.2 %, and the minimum dose to 90 % of the target volume was within 2.8 % of the prescription dose. The time study demonstrated that the proposed workflow could be completed in a mean time of 23.6 min for the 3 Gy (10 fractions) plan and 25.4 min for the 8 Gy (single fraction) plan, from patient placement to treatment completion.

Conclusion

These results demonstrate that safe, fast palliation of spine metastases can be achieved in under 30 min using MR-SIM, bulk density on-table planning, and immediate treatment delivery.

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仅磁共振快速桌上计划和脊柱转移的即时治疗

背景和目的本研究旨在开发一种磁共振（MR）治疗计划方案，将其整合到磁共振模拟（MR- sim）、桌上治疗计划和即时治疗流程中，以快速缓解疼痛的脊柱转移。材料和方法健康志愿者的35个治疗方案通过MR-SIM扫描生成，使用的协议包括：(1)基于椎体水平的4个规划靶体积（PTV）结构库，(2)覆盖PTV的默认束模板，同时避免危险器官（OAR），(3)用于剂量计算的容重分配，以及(4)一组剂量优化参数。我们将每个方案转移到患者先前的计算机断层扫描模拟（CT-SIM）图像中，并比较剂量学参数。对所有35例健康志愿者进行MR-SIM、桌上计划和即时治疗工作流程的时间研究。结果所有容重MR-SIM方案均产生可接受的剂量分布，两名医生认为100%适合治疗。最大点剂量在处方剂量的3.2%以内，最小至靶体积90%的剂量在处方剂量的2.8%以内。时间研究表明，从患者安置到治疗完成，3gy（10个分数）计划的平均时间为23.6分钟，8gy（单个分数）计划的平均时间为25.4分钟。结论这些结果表明，采用MR-SIM、体积密度表上计划和立即治疗，可以在30分钟内实现安全、快速的脊柱转移缓解。

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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