Hammond Kathryn E, Lupo Janine M, Xu Duan, Metcalf Meredith, Kelley Douglas A C, Pelletier Daniel, Chang Susan M, Mukherjee Pratik, Vigneron Daniel B, Nelson Sarah J
University of California San Francisco/Berkeley Joint Graduate Group in Bioengineering, San Francisco, CA 94158-2532, USA.
Neuroimage. 2008 Feb 15;39(4):1682-92. doi: 10.1016/j.neuroimage.2007.10.037. Epub 2007 Nov 7.
The increased susceptibility effects and high signal-to-noise ratio at 7.0 T enable imaging of the brain using the phase of the magnetic resonance signal. This study describes and evaluates a robust method for calculating phase images from gradient-recalled echo (GRE) scans. The GRE scans were acquired at 7.0 T using an eight-channel receive coil at spatial resolutions up to 0.195 x 0.260 x 2.00 mm. The entire 7.0 T protocol took less than 10 min. Data were acquired from forty-seven subjects including clinical patients with multiple sclerosis (MS) or brain tumors. The phase images were post-processed using a fully automated phase unwrapping algorithm that combined the data from the different channels. The technique was used to create the first phase images of MS patients at any field strength and the first phase images of brain tumor patients above 1.5 T. The clinical images showed novel contrast in MS plaques and depicted microhemorrhages and abnormal vasculature in brain tumors with unsurpassed resolution and contrast.
7.0T时增加的易感性效应和高信噪比使得利用磁共振信号的相位对大脑进行成像成为可能。本研究描述并评估了一种从梯度回波(GRE)扫描计算相位图像的稳健方法。GRE扫描在7.0T下使用八通道接收线圈进行,空间分辨率高达0.195×0.260×2.00mm。整个7.0T协议耗时不到10分钟。数据采集自47名受试者,包括患有多发性硬化症(MS)或脑肿瘤的临床患者。相位图像使用一种全自动相位解缠算法进行后处理,该算法结合了来自不同通道的数据。该技术用于创建任何场强下MS患者的首张相位图像以及1.5T以上脑肿瘤患者的首张相位图像。临床图像在MS斑块中显示出新颖的对比度,并以无与伦比的分辨率和对比度描绘了脑肿瘤中的微出血和异常血管。
