Department of Neurology, Johns Hopkins University, 600 N Wolfe Street, Pathology 627, Baltimore, MD 21287, USA.
Mult Scler. 2013 Apr;19(4):427-35. doi: 10.1177/1352458512456614. Epub 2012 Aug 13.
Spinal cord (SC) pathology is a major contributor to clinical disability in multiple sclerosis (MS). Conventional magnetic resonance imaging (MRI), specifically SC-MRI lesion load measures that include lesion count and volume, demonstrate only a modest relationship with the clinical status of MS patients. Although SC cross-sectional area (CSA) correlates better with clinical dysfunction than MRI lesion count, SC atrophy likely signifies irreversible tissue loss. Using quantitative MRI indices sensitive to early and late microstructural changes in the spinal cord, we searched for the presence of better correlations between MRI measures and clinical status in MS.
We investigated whether diffusion-tensor imaging indices and the magnetization-transfer ratio (MTR) were better associated with the clinical status of MS patients than conventional SC-MRI measures.
A total of 129 MS patients underwent 3-tesla cervical SC-MRI and quantitative sensorimotor function testing, using the Vibratron-II and dynamometer. Regions-of-interest circumscribed the SC on axial slices between C3-C4. We calculated SC-CSA, fractional anisotropy (FA), mean diffusivity (MD), perpendicular diffusivity (λ perpendicular), parallel diffusivity (λ||) and MTR. We used multivariable linear regression to determine if there were any associations between MRI indices and clinical measures of dysfunction.
All MRI indices were significantly different in subjects with MS versus healthy controls, and between the progressive versus relapsing MS subtypes, with the exception of λ||. In multivariable regression models that were adjusted for age, sex, brain parenchymal fraction, and SC-CSA, the MRI indices independently explained variability in hip flexion strength (p-values: MD, λ perpendicular, λ|| < 0.001; FA = 0.07), vibration sensation threshold (p-values: FA = 0.04; MTR = 0.05; λ perpendicular = 0.06), and Expanded Disability Status Scale scores (p-values: FA = 0.003; MD = 0.03; λ perpendicular = 0.005; MTR = 0.02).
In a large, heterogeneous MS sample, quantitative SC-MRI indices demonstrated independent associations with system-specific and global clinical dysfunction. Our findings suggest that the indices studied may provide important information about microstructural SC changes and the substrates of limb disability in MS. The identified structure-function relationships underpin the potential utility of these measures in assessments of therapeutic efficacy.
脊髓(SC)病理学是多发性硬化症(MS)导致临床残疾的主要原因。传统的磁共振成像(MRI),特别是包括病变计数和体积在内的 SC-MRI 病变负荷测量,仅与 MS 患者的临床状况有适度的相关性。尽管 SC 横截面积(CSA)与临床功能障碍的相关性优于 MRI 病变计数,但 SC 萎缩可能表明组织不可逆丢失。使用对脊髓微观结构早期和晚期变化敏感的定量 MRI 指标,我们寻找 MRI 测量值与 MS 患者临床状态之间更好的相关性。
我们研究了弥散张量成像指标和磁化传递比(MTR)是否与 MS 患者的临床状态比传统的 SC-MRI 测量值更好地相关。
共 129 例 MS 患者接受了 3 特斯拉颈段 SC-MRI 和使用 Vibratron-II 和测力计的定量感觉运动功能测试。在 C3-C4 之间的轴位切片上,我们使用感兴趣区描绘了 SC。我们计算了 SC-CSA、各向异性分数(FA)、平均弥散度(MD)、垂直弥散度(λ perpendicular)、平行弥散度(λ||)和 MTR。我们使用多元线性回归来确定 MRI 指数与功能障碍的临床测量之间是否存在任何关联。
与健康对照组相比,MS 患者的所有 MRI 指数均有显著差异,且在进展型与复发型 MS 亚型之间也有显著差异,除了 λ||。在调整年龄、性别、脑实质分数和 SC-CSA 的多变量回归模型中,MRI 指数独立解释了髋关节屈曲力量(p 值:MD、λ perpendicular、λ||<0.001;FA=0.07)、振动感觉阈值(p 值:FA=0.04;MTR=0.05;λ perpendicular=0.06)和扩展残疾状况量表评分(p 值:FA=0.003;MD=0.03;λ perpendicular=0.005;MTR=0.02)的变化。
在一个大型、异质的 MS 样本中,定量 SC-MRI 指数与特定系统和整体临床功能障碍有独立的关联。我们的研究结果表明,所研究的指数可能提供了关于脊髓微观结构变化和 MS 肢体残疾基础的重要信息。确定的结构-功能关系为这些措施在评估治疗效果方面的潜在应用提供了依据。