Ellis C M, Suckling J, Amaro E, Bullmore E T, Simmons A, Williams S C, Leigh P N
Department of Neurology, Guy's, Kings & St. Thomas' School of Medicine and Dentistry, London, UK.
Neurology. 2001 Nov 13;57(9):1571-8. doi: 10.1212/wnl.57.9.1571.
Pathologic changes in the motor cortex and corticospinal tracts in ALS may be reflected by abnormal signal intensities on conventional MRI. The sensitivity of these changes in detecting underlying pathology remains unclear.
The authors used automated image analysis to quantify volumes of cerebral gray and white matter in 16 patients with ALS (eight limb onset, eight bulbar onset) and eight normal controls. Previously they had demonstrated a reduction in N-acetyl aspartate/creatine + phosphocreatine (NAA/[Cr + PCr]) measured by (1)H-MRS in the subcortical white matter in the motor cortex region in the patients with bulbar-onset ALS. To determine whether this resulted from axonal degeneration, they also compared gray and white matter volumes in the patients with limb- and bulbar-onset ALS.
There were no differences in the total brain volumes of gray or white matter for the three subject groups (p > 0.23). Comparison of the total ALS group and controls revealed localized deficits in gray matter volume centered on Brodmann areas 8, 9, and 10 bilaterally. Comparison of the patients with limb- and bulbar-onset ALS revealed deficits in the white matter volume in the bulbar-onset group, extending bilaterally from the precentral gyrus into the internal capsule and brainstem, consistent with the course of the corticospinal tract. There was no loss in gray matter volume in the precentral gyri.
The loss of gray matter in the frontal regions (total ALS group) provides further support that ALS is a multisystem disorder. In addition, there is in vivo evidence of axonal degeneration in the subcortical white matter in the motor region in patients with bulbar-onset ALS. This is consistent with a "dying back" process affecting cortical motoneurons in bulbar-onset ALS.
肌萎缩侧索硬化症(ALS)患者运动皮层和皮质脊髓束的病理变化可能通过传统MRI上的异常信号强度反映出来。这些变化在检测潜在病理方面的敏感性仍不清楚。
作者使用自动图像分析技术对16例ALS患者(8例肢体起病,8例延髓起病)和8名正常对照者的脑灰质和白质体积进行量化。此前他们已证实在延髓起病的ALS患者运动皮层区域的皮质下白质中,通过氢质子磁共振波谱(1H-MRS)测量的N-乙酰天门冬氨酸/肌酸+磷酸肌酸(NAA/[Cr+PCr])降低。为了确定这是否由轴突退变所致,他们还比较了肢体起病和延髓起病的ALS患者的灰质和白质体积。
三组研究对象的全脑灰质或白质总体积无差异(p>0.23)。ALS组与对照组比较显示,双侧以布罗德曼8区、9区和10区为中心的灰质体积存在局部缺损。肢体起病和延髓起病的ALS患者比较显示,延髓起病组白质体积有缺损,从中央前回双侧延伸至内囊和脑干,与皮质脊髓束走行一致。中央前回灰质体积无减少。
额叶灰质减少(ALS总体组)进一步支持ALS是一种多系统疾病。此外,有活体证据表明延髓起病的ALS患者运动区皮质下白质存在轴突退变。这与延髓起病的ALS中影响皮质运动神经元的“逆行性死亡”过程一致。