Constable R T, McCarthy G, Allison T, Anderson A W, Gore J C
Department of Diagnostic Radiology, Yale University School of Medicine, New Haven, CT 06510.
Magn Reson Imaging. 1993;11(4):451-9. doi: 10.1016/0730-725x(93)90463-n.
There is considerable interest in the use of MR imaging to study brain function. Recently, it has been demonstrated that small changes in signal intensity occur in the visual cortex in T2*-weighted imaging in response to appropriate visual stimuli. Similar responses to activation have also been recorded in motor cortex as well as frontal lobes. To date most of these studies have been carried out at very high field strength or they have used echo planar imaging. We report our preliminary results showing that the effects of activation of visual and motor areas of the brains of normal volunteers can be recorded using conventional MR imaging methods on a standard 1.5 T clinical scanner. Using gradient-echo imaging sequences, we have been able to map activated visual and motor cortex with high spatial resolution in multiple planes, and are using this technique to examine the relationship between physiological response and stimulus parameters. Signal changes of the order of 2-12% in images with TE = 45 msec, TR = 120 msec, and alpha = 40 degrees, permit excellent depiction of the regions affected.
使用磁共振成像(MR成像)来研究脑功能引起了人们极大的兴趣。最近有研究表明,在T2*加权成像中,当给予适当的视觉刺激时,视觉皮层会出现信号强度的微小变化。在运动皮层以及额叶中也记录到了类似的激活反应。到目前为止,大多数此类研究都是在非常高的场强下进行的,或者使用了回波平面成像。我们报告了初步结果,显示使用标准的1.5T临床扫描仪上的传统MR成像方法,可以记录正常志愿者大脑视觉和运动区域激活的效应。使用梯度回波成像序列,我们能够在多个平面上以高空间分辨率绘制激活的视觉和运动皮层图,并正在使用该技术研究生理反应与刺激参数之间的关系。在TE = 45毫秒、TR = 120毫秒和α = 40度的图像中,信号变化幅度为2% - 12%,能够很好地描绘受影响的区域。
