局灶性皮质发育异常附近组织微结构的皮质下改变:利用脑磁图偶极簇定位在扩散张量磁共振成像上的检测
Subcortical alterations in tissue microstructure adjacent to focal cortical dysplasia: detection at diffusion-tensor MR imaging by using magnetoencephalographic dipole cluster localization.
作者信息
Widjaja Elysa, Zarei Mahmoodabadi Sina, Otsubo Hiroshi, Snead O Carter, Holowka Stephanie, Bells Sonya, Raybaud Charles
机构信息
Department of Diagnostic Imaging, Division of Neurology, Hospital for Sick Children, 555 University Ave, Toronto, ON, Canada.
出版信息
Radiology. 2009 Apr;251(1):206-15. doi: 10.1148/radiol.2511081092. Epub 2009 Feb 3.
PURPOSE
To determine whether changes at diffusion-tensor magnetic resonance (MR) imaging were present in children with intractable epilepsy and focal cortical dysplasia (FCD) in (a) subcortical white matter subjacent to MR imaging-visible areas of FCD, (b) subcortical white matter beyond the MR imaging-visible abnormality but subjacent to a magnetoencephalographic (MEG) dipole cluster, and (c) deep white matter tracts.
MATERIALS AND METHODS
The study protocol had institutional research ethics board approval, and written informed consent was obtained. Fifteen children with FCD and intractable epilepsy (mean age, 11.6 years; range, 3.6-18.3 years) underwent diffusion-tensor MR imaging and MEG. Regions of interest were placed in (a) the subcortical white matter subjacent to the MR imaging-visible abnormality, as well as the contralateral side; (b) the subcortical white matter beyond the MR imaging-visible abnormality but subjacent to a MEG dipole cluster, as well as the contralateral side; and (c) deep white matter tracts projecting to or from the MR imaging-visible FCD, as well as the contralateral side. Fractional anisotropy (FA), mean diffusivity, and eigenvalues (lambda(1), lambda(2), lambda(3)) were evaluated.
RESULTS
Eleven of 15 children had MEG dipole clusters, and four children had MEG scatter. There were significant differences in FA, mean diffusivity, lambda(2), and lambda(3) of the subcortical white matter subjacent to the MR imaging-visible FCD (P < .001 for all), as well as that beyond the MR imaging-visible FCD but subjacent to a MEG dipole cluster (P = .001, P = .036, P < .001, and P = .002, respectively), compared with the contralateral side. There were also significant differences in FA (P < .001), mean diffusivity (P = .008), lambda(2) (P < .001), and lambda(3) (P = .001) of the deep white matter tracts projecting to or from the MR imaging-visible FCD compared with the contralateral side.
CONCLUSION
With use of MEG dipole clusters to localize the epileptogenic zone, diffusion-tensor imaging can help identify alterations in tissue microstructure beyond the MR imaging-visible FCD.
目的
确定在患有难治性癫痫和局灶性皮质发育不良(FCD)的儿童中,在以下部位的扩散张量磁共振(MR)成像是否存在变化:(a)FCD的MR成像可见区域下方的皮质下白质;(b)MR成像可见异常范围之外但位于脑磁图(MEG)偶极簇下方的皮质下白质;(c)深部白质束。
材料与方法
本研究方案获得了机构研究伦理委员会的批准,并获得了书面知情同意书。15名患有FCD和难治性癫痫的儿童(平均年龄11.6岁;范围3.6 - 18.3岁)接受了扩散张量MR成像和MEG检查。感兴趣区放置在:(a)MR成像可见异常下方的皮质下白质及其对侧;(b)MR成像可见异常范围之外但位于MEG偶极簇下方的皮质下白质及其对侧;(c)投射至或来自MR成像可见FCD的深部白质束及其对侧。评估了分数各向异性(FA)、平均扩散率和本征值(λ1、λ2、λ3)。
结果
15名儿童中有11名有MEG偶极簇,4名儿童有MEG散在分布。与对侧相比,MR成像可见FCD下方的皮质下白质以及MR成像可见FCD范围之外但位于MEG偶极簇下方的皮质下白质的FA、平均扩散率、λ2和λ3存在显著差异(所有P值均 < 0.001),分别为(P = 0.001、P = 0.036、P < 0.001和P = 0.002)。与对侧相比,投射至或来自MR成像可见FCD的深部白质束的FA(P < 0.001)、平均扩散率(P = 0.008)、λ2(P < 0.001)和λ3(P = 0.001)也存在显著差异。
结论
利用MEG偶极簇定位致痫区,扩散张量成像有助于识别MR成像可见FCD范围之外的组织微观结构改变。
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