Zou Kelly H, Greve Douglas N, Wang Meng, Pieper Steven D, Warfield Simon K, White Nathan S, Manandhar Sanjay, Brown Gregory G, Vangel Mark G, Kikinis Ron, Wells William M
Surgical Planning Laboratory, Dept of Radiology, Brigham and Women's Hosp, Harvard Medical School, Boston, MA 02115, USA.
Radiology. 2005 Dec;237(3):781-9. doi: 10.1148/radiol.2373041630.
To prospectively investigate the factors--including subject, brain hemisphere, study site, field strength, imaging unit vendor, imaging run, and examination visit--affecting the reproducibility of functional magnetic resonance (MR) imaging activations based on a repeated sensory-motor (SM) task.
The institutional review boards of all participating sites approved this HIPAA-compliant study. All subjects gave informed consent. Functional MR imaging data were repeatedly acquired from five healthy men aged 20-29 years who performed the same SM task at 10 sites. Five 1.5-T MR imaging units, four 3.0-T units, and one 4.0-T unit were used. The subjects performed bilateral finger tapping on button boxes with a 3-Hz audio cue and a reversing checkerboard. In a block design, 15-second epochs of alternating baseline and tasks yielded 85 acquisitions per run. Functional MR images were acquired with block-design echo-planar or spiral gradient-echo sequences. Brain activation maps standardized in a unit-sphere for the left and right hemispheres of each subject were constructed. Areas under the receiver operating characteristic curve, intraclass correlation coefficients, multiple regression analysis, and paired Student t tests were used for statistical analyses.
Significant factors were subject (P < .005), k-space (P < .005), and field strength (P = .02) for sensitivity and subject (P = .03) and k-space (P = .05) for specificity. At 1.5-T MR imaging, mean sensitivities ranged from 7% to 32% and mean specificities were higher than 99%. At 3.0 T, mean sensitivities and specificities ranged from 42% to 85% and from 96% to 99%, respectively. At 4.0 T, mean sensitivities and specificities ranged from 41% to 73% and from 95% to 99%, respectively. Mean areas under the receiver operating characteristic curve (+/- their standard errors) were 0.77 +/- 0.05 at 1.5 T, 0.90 +/- 0.09 at 3.0 T, and 0.95 +/- 0.02 at 4.0 T, with significant differences between the 1.5- and 3.0-T examinations and between the 1.5- and 4.0-T examinations (P < .01 for both comparisons). Intraclass correlation coefficients ranged from 0.49 to 0.71.
MR imaging at 3.0- and 4.0-T yielded higher reproducibility across sites and significantly better results than 1.5-T imaging. The effects of subject, k-space, and field strength on examination reproducibility were significant.
前瞻性研究影响基于重复感觉运动(SM)任务的功能磁共振(MR)成像激活再现性的因素,包括受试者、脑半球、研究地点、场强、成像设备供应商、成像序列和检查次数。
所有参与研究地点的机构审查委员会均批准了这项符合健康保险流通与责任法案(HIPAA)的研究。所有受试者均签署了知情同意书。对5名年龄在20 - 29岁的健康男性在10个地点重复进行相同的SM任务,并反复采集功能MR成像数据。使用了5台1.5T MR成像设备、4台3.0T设备和1台4.0T设备。受试者在带有3Hz音频提示和反转棋盘的按钮盒上进行双侧手指敲击。采用组块设计,交替的基线期和任务期各15秒,每次扫描采集85次。功能MR图像采用组块设计的回波平面或螺旋梯度回波序列采集。构建每个受试者左右脑半球在单位球体内标准化的脑激活图。采用受试者工作特征曲线下面积、组内相关系数、多元回归分析和配对学生t检验进行统计分析。
对于敏感性,显著影响因素为受试者(P <.005)、k空间(P <.005)和场强(P =.02);对于特异性,显著影响因素为受试者(P =.03)和k空间(P =.05)。在1.5T MR成像时,平均敏感性范围为7%至32%,平均特异性高于99%。在3.0T时,平均敏感性和特异性分别为42%至85%和96%至99%。在4.0T时,平均敏感性和特异性分别为41%至73%和95%至99%。受试者工作特征曲线下的平均面积(±其标准误)在1.5T时为0.77±0.05,在3.0T时为0.90±0.09,在4.0T时为0.95±0.02,1.5T与3.0T检查之间以及1.5T与4.0T检查之间存在显著差异(两种比较P均<.01)。组内相关系数范围为0.49至0.71。
3.0T和4.0T的MR成像在不同地点具有更高的再现性,且结果明显优于1.5T成像。受试者、k空间和场强对检查再现性的影响显著。
