MacLennan Thomas, Seres Peter, Rickard Julia, Stolz Emily, Beaulieu Christian, Wilman Alan H
Department of Biomedical Engineering, University of Alberta, Edmonton, Alberta, Canada.
Magn Reson Med. 2022 Feb;87(2):960-971. doi: 10.1002/mrm.29011. Epub 2021 Sep 21.
The transmit field at 3 T in brain affects the spatial uniformity and contrast of most image acquisitions. Here, spatial variation in brain at 3 T is characterized in a large healthy population.
Bloch-Siegert maps were acquired at 3 T from 385 healthy subjects aged 5-90 years on a single MRI system. After transforming all maps to a standard brain atlas space, region-of-interest analysis was performed, and intersubject voxel-wise coefficient of variation was calculated across the whole brain. The variability due to age and brain size was studied separately in males and females, along with variability due to nonideal transmit calibration.
The voxel-based mean coefficient of variation was 4.0% across all subjects, and the difference in between central (left thalamus) and outer regions (left frontal gray matter) was 24.2% ± 2.3%. The least intersubject variability occurred in central regions, whereas regions toward brain edges increased markedly in variation. The variability with age was mostly attributed to lifespan changes in CSF volume (which alters brain conductivity) and head orientation. Larger brain size correlated with more inhomogeneity (p < .001). Varying head position and anatomy resulted in an inaccurate transmit calibration.
In standard atlas space, intersubject variability at 3 T was relatively small in a large population aged 5-90 years. The varied with age-related changes of CSF volume and head orientation, as well as differences in brain size and transmit calibration.
3T场强下脑部的发射场会影响大多数图像采集的空间均匀性和对比度。在此,对一大群健康人群中3T场强下脑部的空间变化进行了特征描述。
在3T场强下,使用单一MRI系统对385名年龄在5至90岁的健康受试者采集布洛赫-西格特图。将所有图像转换到标准脑图谱空间后,进行感兴趣区域分析,并计算全脑受试者间体素级别的变异系数。分别研究了男性和女性中年龄和脑大小引起的变异性,以及非理想发射校准引起的变异性。
所有受试者基于体素的平均变异系数为4.0%,中央区域(左丘脑)和外围区域(左额叶灰质)之间的差异为24.2%±2.3%。受试者间变异性最小的区域是中央区域,而靠近脑边缘的区域变异性显著增加。随年龄的变异性主要归因于脑脊液体积(其改变脑电导率)和头部方向的终生变化。脑体积越大,不均匀性越高(p<0.001)。头部位置和解剖结构的变化导致发射校准不准确。
在标准图谱空间中,5至90岁的大群体中3T场强下受试者间的变异性相对较小。变异性随脑脊液体积和头部方向的年龄相关变化以及脑大小和发射校准的差异而变化。
