El-Sharkawy AbdEl-Monem M, Qian Di, Bottomley Paul A
Division of MR Research, Department of Radiology, Johns Hopkins University, Baltimore, Maryland 21287, USA.
Med Phys. 2008 May;35(5):1995-2006. doi: 10.1118/1.2905027.
Interventional, "loopless antenna" MRI detectors are currently limited to 1.5 T. This study investigates whether loopless antennae offer signal-to-noise ratio (SNR) and field-of-view (FOV) advantages at higher fields, and whether device heating can be controlled within safe limits. The absolute SNR performance of loopless antennae from 0.5 to 5 T is investigated both analytically, using electromagnetic (EM) dipole antenna theory, and numerically with the EM method of moments, and found to vary almost quadratically with field strength depending on the medium's electrical properties, the noise being dominated by direct sample conduction losses. The prediction is confirmed by measurements of the absolute SNR of low-loss loopless antennae fabricated for 1.5, 3, and 4.7 T, immersed in physiologically comparable saline. Gains of 3.8 +/- 0.2- and 9.7 +/- 0.3-fold in SNR, and approximately 10- and 50-fold gains in the useful FOV area are observed at 3 and 4.7 T, respectively, compared to 1.5 T. Heat testing of a 3 T biocompatible nitinol-antenna fabricated with a redesigned decoupling circuit shows maximum heating of approximately 1 degrees C for MRI operating at high MRI exposure levels. Experiments in the rabbit aorta confirm the SNR and FOV advantages of the 3 T antenna versus an equivalent commercial 1.5 T device in vivo. This work is the first to study the performance of experimental internal MRI detectors above 1.5 T. The large SNR and FOV gains realized present a major opportunity for high-resolution imaging of vascular pathology and MRI-guided intervention.
介入式“无环天线”磁共振成像(MRI)探测器目前仅限于1.5T。本研究调查了无环天线在更高磁场下是否具有信噪比(SNR)和视野(FOV)优势,以及设备发热能否控制在安全范围内。使用电磁(EM)偶极天线理论进行分析,并采用EM矩量法进行数值计算,研究了0.5至5T无环天线的绝对SNR性能,发现其几乎随场强呈二次方变化,这取决于介质的电学性质,噪声主要由直接样本传导损耗主导。通过测量为1.5T、3T和4.7T制造并浸入生理等效盐水中的低损耗无环天线的绝对SNR,证实了这一预测。与1.5T相比,在3T和4.7T时分别观察到SNR增益为3.8±0.2倍和9.7±0.3倍,有用FOV面积增益约为10倍和50倍。对采用重新设计的去耦电路制造的3T生物相容性镍钛诺天线进行的热测试表明