Multi-institutional experience treating patients with cardiac devices on a 1.5 Tesla magnetic resonance-linear accelerator and workflow development for thoracic treatments

IF 3.4 Q2 ONCOLOGY

Physics and Imaging in Radiation Oncology Pub Date : 2024-10-01 DOI:10.1016/j.phro.2024.100680

Rick Keesman , Erik van der Bijl , Linda G.W. Kerkmeijer , Neelam Tyagi , Osman Akdag , Jochem W.H. Wolthaus , Sandrine M.G. van de Pol , Juus L. Noteboom , Martijn P.W. Intven , Martin F. Fast , Astrid L.H.M.W. van Lier

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引用次数: 0

Abstract

Background and purpose

Patients with cardiac implantable electronic devices (CIED patients) are often ineligible for online magnetic resonance-guided radiotherapy (MRgRT), most likely due to the absence of established guidelines. Existing radiotherapy (RT) and magnetic resonance imaging (MRI) guidelines offer an opportunity to construct MRgRT protocols, promoting equitable access. Our objective was to present such a workflow, share multi-institutional experiences treating CIED patients with MRgRT on a 1.5 T magnetic resonance-linear accelerator (MR-linac), and investigate geometric accuracy and electrocardiogram (ECG) monitoring for thoracic treatment.

Materials and methods

A risk analysis identified strategies for safe MRgRT for CIED patients. At three institutions, 21 pelvic and abdominal patients were treated. Patient records were analyzed for adverse events. Geometric accuracy was investigated using B₀-mapping with a phantom simulating moving lung and cardiac lesions near a CIED. Volunteer measurements evaluated the effects of patient positioning and MRI sequences on ECG signal distortion.

Results

MRI and RT workflows were adaptable to MRgRT. No adverse events were recorded. B₀-maps showed a maximum mean difference between static and dynamic phantom configurations of 0.1 mm, increasing to 0.4 mm distortion in the presence of a CIED. ECG readings exhibited severe distortions during scanning, hampering heart rhythm detection for most MRI sequences.

Conclusions

CIED patients can safely undergo treatment on a 1.5 T MR-linac following RT and MRI guidelines. For targets near CIEDs, a B₀-mapping procedure was considered accurate enough to determine MRgRT eligibility. Pulse oximetry is recommended for cardiac monitoring during MRI scanning due to ECG signal distortion.

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在 1.5 特斯拉磁共振线性加速器上治疗心脏装置患者的多机构经验，以及胸腔治疗工作流程的开发

背景和目的心脏植入式电子装置患者（CIED 患者）通常不符合在线磁共振引导放射治疗（MRgRT）的条件，这很可能是因为缺乏既定的指南。现有的放射治疗（RT）和磁共振成像（MRI）指南为构建磁共振引导放疗方案提供了机会，从而促进了公平的治疗。我们的目标是介绍这样一种工作流程，分享在1.5 T磁共振直线加速器（MR-linac）上用MRgRT治疗CIED患者的多机构经验，并研究胸部治疗的几何精度和心电图（ECG）监测。三家机构共治疗了21名盆腔和腹腔患者。对患者记录进行了不良事件分析。使用B0映射模型模拟CIED附近移动的肺部和心脏病灶，对几何精度进行了研究。志愿者测量评估了患者定位和 MRI 序列对心电图信号失真的影响。无不良事件记录。B0 地图显示静态和动态模型配置之间的最大平均差异为 0.1 毫米，在有 CIED 的情况下，失真增加到 0.4 毫米。心电图读数在扫描过程中出现严重失真，妨碍了大多数磁共振成像序列的心律检测。对于CIED附近的目标，B0映射程序被认为足够精确，足以确定是否符合MRgRT条件。由于心电图信号失真，建议在磁共振成像扫描期间使用脉搏血氧仪进行心脏监测。

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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