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下肢和骨盆软组织肉瘤磁共振引导下热疗过程中磁共振测温性能评估。

Evaluation of magnetic resonance thermometry performance during MR-guided hyperthermia treatment of soft-tissue sarcomas in the lower extremities and pelvis.

机构信息

Department of Medicine III, LMU University Hospital, LMU Munich, Munich, Germany.

Dr. Sennewald Medizintechnik GmbH, Munich, Germany.

出版信息

Int J Hyperthermia. 2024;41(1):2405105. doi: 10.1080/02656736.2024.2405105. Epub 2024 Sep 22.

DOI:10.1080/02656736.2024.2405105
PMID:39307528
Abstract

INTRODUCTION

This study evaluated the performance of magnetic resonance thermometry (MRT) during deep-regional hyperthermia (HT) in pelvic and lower-extremity soft-tissue sarcomas.

MATERIALS AND METHODS

17 pelvic (45 treatments) and 16 lower-extremity (42 treatments) patients underwent standard regional HT and chemotherapy. Pairs of double-echo gradient-echo scans were acquired during the MR protocol 1.4 s apart. For each pair, precision was quantified using phase data from both echoes ('dual-echo') or only one ('single-echo') in- or excluding body fat pixels in the field drift correction region of interest. The precision of each method was compared to that of the MRT approach using a built-in clinical software tool (SigmaVision). Accuracy was assessed in three lower-extremity patients (six treatments) using interstitial temperature probes. The Jaccard coefficient quantified pretreatment motion; receiver operating characteristic analysis assessed its predictability for acceptable precision (<1 °C) during HT.

RESULTS

Compared to the built-in dual-echo approach, single-echo thermometry improved the mean temporal precision from 1.32 ± 0.40 °C to 1.07 ± 0.34 °C (pelvis) and from 0.99 ± 0.28 °C to 0.76 ± 0.23 °C (lower extremities). With body fat-based field drift correction, single-echo mean accuracy improved from 1.4 °C to 1.0 °C. Pretreatment bulk motion provided excellent precision prediction with an area under the curve of 0.80-0.86 (pelvis) and 0.81-0.83 (lower extremities), compared to gastrointestinal air motion (0.52-0.58).

CONCLUSION

Single-echo MRT exhibited better precision than dual-echo MRT. Body fat-based field-drift correction significantly improved MRT accuracy. Pretreatment bulk motion showed improved prediction of acceptable MRT temporal precision over gastrointestinal air motion.

摘要

简介

本研究评估了磁共振测温(MRT)在盆腔和下肢软组织肉瘤深部区域热疗(HT)中的性能。

材料和方法

17 例盆腔(45 次治疗)和 16 例下肢(42 次治疗)患者接受标准区域 HT 和化疗。在 MR 方案中,每 1.4 秒采集一对双回波梯度回波扫描。对于每一对,使用两个回波中的相位数据(“双回波”)或仅一个回波(“单回波”)来量化精度,在磁场漂移校正感兴趣区域中包括或排除体脂肪像素。将每种方法的精度与使用内置临床软件工具(SigmaVision)的 MRT 方法进行比较。在三名下肢患者(六次治疗)中使用间质温度探头评估准确性。Jacard 系数量化了预处理运动;接收者操作特性分析评估了其对 HT 期间可接受精度(<1°C)的预测能力。

结果

与内置的双回波方法相比,单回波测温将平均时间精度从 1.32±0.40°C 提高到 1.07±0.34°C(盆腔)和 0.99±0.28°C 提高到 0.76±0.23°C(下肢)。使用基于体脂肪的磁场漂移校正后,单回波平均准确性从 1.4°C 提高到 1.0°C。预处理的整体运动提供了出色的精度预测,曲线下面积为 0.80-0.86(盆腔)和 0.81-0.83(下肢),而不是胃肠道空气运动(0.52-0.58)。

结论

单回波 MRT 显示出比双回波 MRT 更高的精度。基于体脂肪的磁场漂移校正显著提高了 MRT 的准确性。预处理的整体运动在预测可接受的 MRT 时间精度方面优于胃肠道空气运动。

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