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Non-invasive in-vivo temperature mapping of ultrasound heating using fluorine-based magnetic resonance imaging agents

机译：使用基于氟的磁共振成像剂对超声加热进行无创体内温度映射

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The aim of this study was to investigate the feasibility of using fluorine based magnetic resonance to measure accurately hepatic heating from a focused ultrasound transducer in rats. This new method uses the temperature dependence of the difference in fluorine chemical shifts within a single molecule to provide internal compensation for complicating physiological effects. Female Sprague-Dawley rats were exposed to 5 minutes of CW irradiation at 1.37 MHz from a focused transducer. Theoretical calculations based on the monopole source solution to the bio-heat transfer equation gave a volume-averaged temperature rise of 2.1/spl deg/C. Preliminary experiments using protein encapsulated perfluorooctylbromide targeted to the liver gave an empirical rise of 2.0/spl plusmn/0.4/spl deg/C.

机译：这项研究的目的是调查使用基于氟的磁共振从大鼠中聚焦超声换能器准确测量肝热的可行性。这种新方法利用了单个分子内氟化学位移差异的温度依赖性，从而为复杂的生理效应提供了内部补偿。将雌性Sprague-Dawley大鼠从聚焦换能器以1.37 MHz的频率进行5分钟的连续波照射。基于单极源解的生物传热方程的理论计算得出体积平均温升为2.1 / spl deg / C。使用针对肝脏的蛋白封装的全氟辛基溴化物进行的初步实验得出的经验值上升了2.0 / spl plusmn / 0.4 / spl deg / C。

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《》|1995年|P.1609-1612|共4页
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Webb; A.G.; Smith; N.B.;
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中图分类无线电电子学、电信技术;
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1. Low-Intensity Focused Ultrasound Pulsation Device Used During Magnetic Resonance Imaging: Evaluation of Magnetic Resonance Imaging-Related Heating at 3 Tesla/128 MHz [J] . Alexer S. Korb, Frank G. Shellock, Mark S. Cohen Neuromodulation: journal of the International Neuromodulation Society . 2014,第3期

机译：磁共振成像期间使用的低强度聚焦超声脉动设备：评估与磁共振成像相关的3 Tesla / 128 MHz加热
2. Temperature mapping near the surface of ultrasound transducers using susceptibility- compensated magnetic resonance imaging [J] . Webb A.G., Neuberger T., Eun-joo Park, Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on . 2009,第6期

机译：使用磁化率补偿磁共振成像的超声换能器表面附近的温度映射
3. Intraluminal ultrasound applicator compatible with magnetic resonance imaging "real-time" temperature mapping for the treatment of oesophageal tumours: an ex vivo study. [J] . Melodelima D, Salomir R, Mougenot C, Medical Physics . 2004,第2期

机译：与磁共振成像“实时”温度测绘兼容的腔内超声涂药器用于治疗食道肿瘤：一项离体研究。
4. Non-invasive in vivo temperature mapping of ultrasound heating using magnetic resonance techniques [C] . Smith, N.B., Webb, . 1994

机译：使用磁共振技术的超声加热的非侵入性体内温度映射
5. Monitoring Response of Prostate Cancer to Ultrasound Thermal Therapy by Multi-Agent Hyperpolarized 13C Magnetic Resonance Imaging [D] . Lee, Jessie Eileen. 2018

机译：通过多代理超极化13C磁共振成像监测前列腺癌对超声热疗法的反应
6. Integrated ultrasound and magnetic resonance imaging for simultaneous temperature and cavitation monitoring during focused ultrasound therapies [O] . Costas D. Arvanitis, Nathan McDannold -1

机译：集成超声和磁共振成像可在聚焦超声治疗期间同时监测温度和气蚀
7. Basic Study of 3-D Non-Invasive Measurement of Temperature Distribution Using Ultrasound Images during HIFU Heating [O] . Ryosuke Sakakibara, Yasuhiro Shindo, Kazuo Kato, 2020

机译：3-D在HIFU加热过程中使用超声图像3-D非侵入性测量的基本研究

Non-invasive in-vivo temperature mapping of ultrasound heating using fluorine-based magnetic resonance imaging agents

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