Institute of Neurogenetics, University of Lübeck, Lübeck, Germany.
Department of Neurology, University of Lübeck, Lübeck, Germany.
Brain. 2018 Oct 1;141(10):2995-3008. doi: 10.1093/brain/awy222.
X-linked dystonia-parkinsonism is a neurodegenerative movement disorder characterized by adult-onset dystonia combined with parkinsonism over the disease course. Previous imaging and pathological findings indicate exclusive striatal atrophy with predominant pathology of the striosomal compartment in the dystonic phase of X-linked dystonia-parkinsonism. The striosome occupies 10-15% of the entire striatal volume and the density of striosomes follows a rostrocaudal gradient with the rostral striatum being considered striosome-rich. Recent quantitative MRI analyses provided evidence for an additional involvement of the white matter and the pallidum. In this study, we aimed to (i) disentangle the degree of atrophy in the different subdivisions of the striatum; (ii) investigate changes of cortical morphology; and (iii) elucidate the role of the cerebellum in X-linked dystonia-parkinsonism. T1-weighted MRI scans were acquired in 17 male X-linked dystonia-parkinsonism patients with predominant dystonia (40.1 ± 7.5 years) and 17 ethnicity-matched male healthy controls (35.2 ± 7.4 years). Voxel-based morphometry used a region of interest-based approach for the basal ganglia and primary motor cortex, whole brain analysis, and a separate analysis of the cerebellum. Cortical thickness and subcortical volume were measured. Volume loss in X-linked dystonia-parkinsonism affected all parts of the striatum (-29% voxel intensity) but was most pronounced in the associative subdivision (-41%; P < 0.001). The volume loss also involved the external and internal pallidum, albeit to a lesser extent than the striatum (-19% and -12%, P<0.001). Cortical thickness was reduced in the frontal (-4.3%) and temporal cortex (-6.1%). In addition, we found grey matter pathology in the associative part of the cerebellum and increased voxel intensities in the anterior sensorimotor part of the cerebellum and the dorsal ponto-mesencephalic brainstem. Taken together, our analysis of subcortical and cortical grey matter in the dystonic phase of X-linked dystonia-parkinsonism showed that (i) the striosome-enriched rostral striatum was most severely affected; and (ii) cortical thickness was only reduced in those regions that predominantly have anatomical connections to striosomes. Moreover, the cerebellum may be implicated in both disease-related and compensatory changes, highlighting the significance of the cerebellum in the pathophysiology of dystonia.
X 连锁型肌张力障碍-帕金森病是一种神经退行性运动障碍,其特征为成年起病的肌张力障碍,疾病过程中伴有帕金森病。既往影像学和病理学研究提示纹状体局限性萎缩,且在 X 连锁型肌张力障碍-帕金森病的肌张力障碍期以纹状体豆状核区(striosomal compartment)病变为主。豆状核占整个纹状体体积的 10%-15%,其密度呈前后梯度分布,前部纹状体富含豆状核。最近的定量磁共振成像分析提供了纹状体以外的白质和苍白球受累的证据。在这项研究中,我们旨在:(i)阐明纹状体不同分区的萎缩程度;(ii)研究皮质形态的变化;(iii)阐明小脑在 X 连锁型肌张力障碍-帕金森病中的作用。我们对 17 名主要表现为肌张力障碍的男性 X 连锁型肌张力障碍-帕金森病患者(40.1 ± 7.5 岁)和 17 名年龄匹配的男性健康对照者(35.2 ± 7.4 岁)进行了 T1 加权磁共振成像扫描。基于体素的形态测量学方法用于基底节和初级运动皮质的感兴趣区分析、全脑分析以及小脑的单独分析。测量皮质厚度和皮质下体积。X 连锁型肌张力障碍-帕金森病的容积损失累及纹状体的所有部位(-29%的体素强度),但以联合区最为显著(-41%;P<0.001)。苍白球外和苍白球内也有容积损失,但程度较轻(-19%和-12%;P<0.001)。额皮质(-4.3%)和颞皮质(-6.1%)的皮质厚度降低。此外,我们还发现小脑联合区有灰质病理学改变,小脑前运动感觉区和背侧脑桥中脑的体素强度增加。综上所述,我们对 X 连锁型肌张力障碍-帕金森病肌张力障碍期的皮质下和皮质灰质进行的分析表明:(i)富含豆状核的前部纹状体最易受影响;(ii)皮质厚度仅在与豆状核有主要解剖连接的区域降低。此外,小脑可能与疾病相关和代偿性改变都有关,这凸显了小脑在肌张力障碍病理生理学中的重要性。
