Thermal magnetic resonance: physics considerations and electromagnetic field simulations up to 23.5 Tesla (1GHz)

机译：热磁共振：物理考虑因素和高达23.5 Tesla（1GHz）的电磁场模拟

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BackgroundGlioblastoma multiforme is the most common and most aggressive malign brain tumor. The 5-year survival rate after tumor resection and adjuvant chemoradiation is only 10 %, with almost all recurrences occurring in the initially treated site. Attempts to improve local control using a higher radiation dose were not successful so that alternative additive treatments are urgently needed. Given the strong rationale for hyperthermia as part of a multimodal treatment for patients with glioblastoma, non-invasive radio frequency (RF) hyperthermia might significantly improve treatment results.

机译：背景多形胶质母细胞瘤是最常见和最具侵袭性的恶性脑肿瘤。肿瘤切除和辅助放化疗后的5年生存率仅为10％，几乎所有复发都发生在最初治疗的部位。使用较高的辐射剂量来改善局部控制的尝试并不成功，因此迫切需要替代性的附加治疗。鉴于将热疗作为胶质母细胞瘤患者多式联运治疗的一部分的强烈理由，无创射频（RF）热疗可能会显着改善治疗效果。

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期刊名称 Radiation Oncology (London England)
作者
Lukas Winter; Celal Oezerdem; Werner Hoffmann; Tessa van de Lindt; Joao Periquito; Yiyi Ji; Pirus Ghadjar; Volker Budach; Peter Wust; Thoralf Niendorf;
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作者单位

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年(卷),期 2015(10),-1
年度 2015
页码 201
总页数 12
原文格式 PDF
正文语种
中图分类肿瘤学;放射医学;影像诊断学;
关键词
Thermal magnetic resonance Magnetic resonance imaging Hyperthermia Radio frequency RF coil technology Gliablastoma multiforme Radiation oncology Thermometry Targeted drug delivery Thermal therapies;

机译：热磁共振;磁共振成像;热疗;射频;射频线圈技术;多形性胶质母细胞瘤;放射肿瘤学;测温;靶向药物递送;热疗法;

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专利

1. Thermal magnetic resonance: physics considerations and electromagnetic field simulations up to 23.5 Tesla (1GHz) [J] . Lukas Winter, Celal Oezerdem, Werner Hoffmann, Radiation oncology . 2015,第1期

机译：热磁共振：物理考虑因素和高达23.5 Tesla（1GHz）的电磁场模拟
2. Thermal magnetic resonance: physics considerations and electromagnetic field simulations up to 23.5 Tesla (1GHz) [J] . Lukas Winter, Celal Oezerdem, Werner Hoffmann, Radiation oncology . 2015,第1期

机译：热磁共振：物理考虑因素和高达23.5 Tesla（1GHz）的电磁场模拟
3. Thermal magnetic resonance: physics considerations and electromagnetic field simulations up to 23.5 Tesla (1GHz) [J] . Lukas Winter, Celal Oezerdem, Werner Hoffmann, Radiation oncology . 2015,第1期

机译：热磁共振：物理考虑因素和高达23.5 Tesla（1GHz）的电磁场模拟
4. Radiative RF Antenna Arrays for Cardiac, Brain and Thermal Magnetic Resonance at Ultrahigh and Extreme Magnetic Field Strengths: Concepts, Electromagnetic Field Simulations and Applications [C] . Thoralf Niendorf, Celal Oezerdem, Yiyi Ji, International Conference on Electromagnetics in Advanced Applications . 2017

机译：用于心脏，大脑和极端磁场强度的心脏，脑和热磁共振的辐射RF天线阵列：概念，电磁场模拟和应用
5. Safety and performance considerations for interactions between electromagnetic fields and biological tissue: Applications to high field human magnetic resonance imaging and tissue-implanted devices. [D] . Tang, Lin. 2010

机译：电磁场与生物组织之间相互作用的安全性和性能考虑：在高场人体磁共振成像和组织植入设备中的应用。
6. Design and Evaluation of a Hybrid Radiofrequency Applicator for Magnetic Resonance Imaging and RF Induced Hyperthermia: Electromagnetic Field Simulations up to 14.0 Tesla and Proof-of-Concept at 7.0 Tesla [O] . Lukas Winter, Celal Özerdem, Werner Hoffmann, -1

机译：用于磁共振成像和RF感应热疗的混合射频辐射器的设计和评估：高达14.0 Tesla的电磁场仿真和7.0 Tesla的概念验证
7. Thermal magnetic resonance: physics considerations and electromagnetic field simulations up to 23.5 Tesla (1GHz) [O] . 2015

机译：热磁共振：物理考虑因素和高达23.5 Tesla（1GHz）的电磁场模拟

Thermal magnetic resonance: physics considerations and electromagnetic field simulations up to 23.5 Tesla (1GHz)

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