012 Volumetric and connectivity profile of regional thalamic abnormality in amyotrophic lateral sclerosis

Oral abstracts Pub Date : 2021-08-01 DOI:10.1136/bmjno-2021-anzan.12

S. Tu, Marion Sourty, F. Calamante, M. Saranathan, R. Menke, K. Talbot, M. Kiernan, M. Turner

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引用次数: 0

Abstract

Objectives Neurodegeneration in ALS follows a diffuse pattern of cortical involvement.1 We have previously highlighted that thalamic abnormality is a robust disease signature in ALS,2 but the integrity of thalamic nuclei and their clinical association remains unclear. We employed a novel segmentation technique for thalamic nuclei and track-weighted functional connectivity (TW-sFC) to characterize volumetric and connectivity profiles of regional thalamic abnormality. Methods Forty ALS patients and 27 age-and-education matched controls were recruited. All patients underwent comprehensive clinical examination and 3T MRI scan (T1; DWI; rs-fMRI). Thalamic nuclei were robustly segmented from T1 images using the THOMAS pipeline.3 Whole-brain white matter fibre tracking was performed using MRtrix and combined with resting-state fMRI to generate combined structural and functional connectivity maps (TW-sFC).4 Results Reduced thalamus volume was observed bilaterally in ALS compared to control (p values Conclusions Regional thalamic abnormalities are present in ALS and hold a significant association with clinical features. Variability in thalamic connectivity demonstrated significant clinical associations with disease duration, progression rate, and upper motor dysfunction. The findings reinforce that diffusion and functional MR imaging modalities are promising markers of disease burden in ALS. References Brettschneider J, Del Tredici K, Toledo J, et al. Stages of pTDP-43 pathology in amyotrophic lateral sclerosis. Ann Neurol 2013;74:20–38. Tu S, Menke R, Talbot K, Kiernan M, Turner M. Regional thalamic MRI as a marker of widespread cortical pathology and progressive frontotemporal involvement in amyotrophic lateral sclerosis. JNNP 2018;89:1250–1258. Su J, Thomas F, Kaso W, et al. Thalamus optimized multi atlas segmentation (THOMAS): fast, fully automated segmentation of thalamic nuclei from structural MRI. Neuroimage 2019;194:272–282. Calamante F, Smith R, Liang X, Zalesky A, Connelly A. Track-weighted dynamic functional connectivity (TW-dFC): a new method to study time-resolved functional connectivity. Brain Struct Funct 2017;222:3761–3774.

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[12]肌萎缩性侧索硬化症丘脑区域异常的体积和连通性特征

目的肌萎缩侧索硬化症的神经退行性病变表现为弥漫性皮层受累我们之前已经强调，丘脑异常是ALS的一个强有力的疾病特征2，但丘脑核的完整性及其临床关联尚不清楚。我们采用一种新的丘脑核分割技术和轨道加权功能连接(TW-sFC)来表征区域丘脑异常的体积和连接特征。方法招募40例ALS患者和27例年龄、学历相匹配的对照组。所有患者均行全面临床检查及3T MRI扫描(T1;酒后驾车;rs-fMRI)。利用THOMAS管道对T1图像进行了丘脑核的鲁棒分割使用MRtrix进行全脑白质纤维跟踪，并结合静息状态fMRI生成结构和功能连接图(TW-sFC)结果与对照组相比，ALS患者双侧丘脑体积减小(p值)。结论ALS患者存在区域丘脑异常，并与临床特征有显著关联。丘脑连通性的变异性与疾病持续时间、进展率和上运动功能障碍有显著的临床关联。研究结果强调，扩散和功能性磁共振成像模式是ALS疾病负担的有希望的标志物。Brettschneider J, Del Tredici K, Toledo J，等。肌萎缩侧索硬化症pTDP-43的病理分期。中国生物医学工程学报(英文版);2013;44(4):559 - 561。图S, Menke R, Talbot K, Kiernan M, Turner M.区域丘脑MRI作为肌萎缩侧索硬化症广泛皮质病理和进行性额颞叶累及的标志物。JNNP 89:1250 2018; 1258年。苏军，李建军，李建军，等。丘脑优化多图谱分割(THOMAS):快速，全自动分割丘脑核结构MRI。科学杂志2019;194:272 - 282。张建军，张建军，张建军，等。一种基于轨迹加权的动态功能连通性研究方法。脑电学报(英文版);2017;22(2):391 - 397。

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