Department of Biomedical Science, Florida Atlantic University, Boca Raton, FL, United States of America.
GE Global Research, Niskayuna, NY, United States of America.
Magn Reson Imaging. 2023 Sep;101:35-39. doi: 10.1016/j.mri.2023.03.020. Epub 2023 Mar 31.
Previously in rodent and swine models, we have shown that external low intensity focused ultrasound (liFUS) can be used to modulate pain responses. To ensure no adverse heating events occur with liFUS modulation in a non-invasive manner, we perform initial work in swine to show that magnetic resonance thermometry imaging (MRTI) is capable of measuring <2.0 °C changes at the L5 DRG. Further, we show that our device can be constructed in an MR-compatible fashion to minimize artifact.
Three MRTI techniques (referenceless, corrected proton resonance frequency shift (PRFS), and PRFS) were applied to assess accuracy of detecting thermal changes at the L5 DRG in unheated euthanized swine. A region of interest (ROI) that includes the L5 DRG was delineated, within which MRTI temperature changes were spatially averaged (ground truth 0 °C). In separate experiments with phantoms, B0 field-inhomogeneity, RF transmit (B1+) and fast gradient echo (fSPGR) magnitude images were acquired to downselect liFUS device materials that produce the least MRI artifacts.
Referenceless, corrected PRFS, and PRFS MRTI resulted in temperature measurements of 0.8 ± 1.1 °C, 1.1 ± 1.3 °C and 5.2 ± 5 °C, respectively. Both materials caused B0 perturbation but minimal B1+ and MRTI artifacts. The presence of imaging artifacts did not preclude thermal imaging of the region.
We provide preliminary data suggesting that referenceless MRTI can adequately detect small thermal changes at the DRG that may occur with neuromodulation, which is one of the first steps in creating a table of safe parameters for liFUS therapy in humans.
在先前的啮齿动物和猪模型中,我们已经证明外部低强度聚焦超声(liFUS)可用于调节疼痛反应。为了确保在非侵入性方式下使用 liFUS 调节时不会发生不利的加热事件,我们在猪中进行了初步研究,表明磁共振测温成像(MRTI)能够测量 L5 DRG 处<2.0°C的变化。此外,我们还表明,我们的设备可以以磁共振兼容的方式构建,以最大程度地减少伪影。
应用三种 MRTI 技术(无参考、校正质子共振频率偏移(PRFS)和 PRFS)来评估在未加热的安乐死猪中检测 L5 DRG 热变化的准确性。划定包含 L5 DRG 的感兴趣区域(ROI),其中对 MRTI 温度变化进行空间平均(地面真值 0°C)。在具有体模的单独实验中,获取了 B0 场不均匀性、RF 发射(B1+)和快速梯度回波(fSPGR)幅度图像,以选择产生最小 MRI 伪影的 liFUS 设备材料。
无参考、校正 PRFS 和 PRFS MRTI 的温度测量结果分别为 0.8±1.1°C、1.1±1.3°C 和 5.2±5°C。两种材料均引起了 B0 扰动,但 B1+和 MRTI 伪影最小。成像伪影的存在并不妨碍对该区域进行热成像。
我们提供了初步数据,表明无参考 MRTI 可以充分检测到可能发生在神经调节中的 DRG 处的微小热变化,这是为 liFUS 治疗在人类中创建安全参数表迈出的第一步。
