Use of radiofrequency electromagnetic fields applied by capacitive hyperthermia for glioblastoma therapy.

IF 3 3区医学 Q2 ONCOLOGY

International Journal of Hyperthermia Pub Date : 2025-12-01 Epub Date: 2025-04-21 DOI:10.1080/02656736.2025.2491518

Dominik Gerster, Rami Muratoglu, Anna-Chiara Giovannelli, Paul Krahl, Alexander Hansch, Anna Dieper, David Kaul, Paraskevi D Veltsista, Julia Onken, Martin Misch, Jacek Nadobny, Daniel Zips, Pirus Ghadjar

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Abstract

Introduction: Radiofrequency electromagnetic fields applied by capacitive hyperthermia (cRF-HT) might be applicable to improve therapy for glioblastoma patients, but computer simulation data is scarce. We aimed to perform a numerical analysis of cRF-HT treatment in glioblastoma patients.

Methods: The EHY-2030 cRF-HT system (Oncotherm, Budapest, Hungary) was studied using a round 20 cm diameter electrode. Realistic head models and quasi-electrostatic finite element simulations were created (Sim4Life v7.2, ZurichMedTech, Zürich, Switzerland). First, 109 spherical glioblastoma localizations were created within a healthy head model, and three different electrode setups were used to simulate the specific absorption rate (SAR). Then, in 20 real glioblastoma patients, the E-field and SAR in the gross tumor volume (GTV) and its boundary zone were simulated, and transient temperature simulations were performed.

Results: The simulations conducted on 20 patients revealed that the SAR achieved in the GTV and its surrounding boundary zone is highly dependent on the localization of the tumor, with a mean SAR of 24.3 W/kg (ranging from 11.5 to 46.7 W/kg). The mean temperature within the GTV was higher in patients with a resection cavity (mean T₅₀: 40.1 °C) instead of a macroscopic tumor (mean T₅₀: 37.8 °C). The simulation outcome for the 109 artificial tumor localizations indicated enhanced effectiveness when the electrode is setup as close to the GTV as possible.

Conclusion: cRF-HT may induce mild hyperthermia in a subgroup of glioblastoma patients with resection cavities. In macroscopic tumors, temperatures remain below the hyperthermia threshold. Further research is required to assess the clinical benefit of this therapy.

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使用射频电磁场应用电容热疗胶质母细胞瘤治疗。

导论：电容性热疗（cRF-HT）应用射频电磁场可能适用于改善胶质母细胞瘤患者的治疗，但计算机模拟数据很少。我们的目的是对恶性胶质瘤患者进行cRF-HT治疗的数值分析。方法：采用直径20 cm的圆形电极对EHY-2030 cRF-HT系统（匈牙利布达佩斯Oncotherm公司）进行研究。创建了逼真的头部模型和准静电有限元模拟（Sim4Life v7.2, ZurichMedTech, z rich, Switzerland）。首先，在健康头部模型中建立109个球形胶质母细胞瘤定位，并使用三种不同的电极设置来模拟特定吸收率（SAR）。然后，对20例真实胶质母细胞瘤患者进行了肿瘤总体积（GTV）及其边界区的e场和SAR模拟，并进行了瞬态温度模拟。结果：对20例患者的模拟显示，GTV及其周围边界区的SAR高度依赖于肿瘤的定位，平均SAR为24.3 W/kg（范围为11.5 ~ 46.7 W/kg）。切除空腔患者GTV内平均温度高于肉眼肿瘤患者（平均T50: 37.8°C）（平均T50: 40.1°C）。109个人工肿瘤定位的模拟结果表明，当电极设置尽可能靠近GTV时，效果会增强。结论：在切除腔体的胶质母细胞瘤患者亚组中，cRF-HT可引起轻度高热。在肉眼可见的肿瘤中，温度保持在高温阈值以下。需要进一步的研究来评估这种疗法的临床效益。

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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