使用容积导航的实时运动和 B0 校正单体素波谱。
Real-time motion and B0 corrected single voxel spectroscopy using volumetric navigators.
机构信息
Department of Human Biology, MRC/UCT Medical Imaging Research Unit, University of Cape Town, South Africa.
出版信息
Magn Reson Med. 2011 Aug;66(2):314-23. doi: 10.1002/mrm.22805. Epub 2011 Mar 4.
Abstract
In population groups where head pose cannot be assumed to be constant during a magnetic resonance spectroscopy examination or in difficult-to-shim regions of the brain, real-time volume of interest, frequency, and shim optimization may be necessary. We investigate the effect of pose change on the B0 homogeneity of a (2 cm)3 volume and observe typical first-order shim changes of 1 μT/m per 1° rotation (chin down to up) in four different volumes of interest in a single volunteer. An echo planar imaging volume navigator was constructed to measure and apply in real-time within each pulse repetition time: volume of interest positioning, frequency adjustment, and first-order shim adjustment. This volume navigator is demonstrated in six healthy volunteers and achieved a mean linewidth of 4.4 Hz, similar to that obtained by manual shim adjustment of 4.9 Hz. Furthermore, this linewidth is maintained by the volume navigator at 4.9 Hz in the presence of pose change. By comparison, a mean linewidth of 7.5 Hz was observed, when no correction was applied.
摘要
在磁共振波谱检查期间,头部姿势不能假定保持不变的人群中,或者在大脑难以匀场的区域,可能需要实时感兴趣区体积、频率和匀场优化。我们研究了姿势变化对 (2 cm)3 体积的 B0 均匀性的影响,并在单个志愿者的四个不同感兴趣区中观察到典型的每 1°旋转(下巴向下到向上)1 μT/m 的一阶匀场变化。构建了一个 EPI 容积导航器来测量和在每个脉冲重复时间内实时应用:感兴趣区定位、频率调整和一阶匀场调整。该容积导航器在六名健康志愿者中进行了演示,获得了 4.4 Hz 的平均线宽,与手动匀场调整 4.9 Hz 获得的结果相似。此外,在存在姿势变化的情况下,容积导航器可将线宽保持在 4.9 Hz。相比之下,当不进行校正时,观察到的平均线宽为 7.5 Hz。
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