Department of Neuromedicine and Movement Science, Faculty of Medicine and Health Sciences, Norwegian University of Science and Technology (NTNU), Trondheim, Norway.
Department of Clinical Neurosciences, Lausanne University Hospital and University of Lausanne, Lausanne, Switzerland.
Neuroimage Clin. 2024;41:103569. doi: 10.1016/j.nicl.2024.103569. Epub 2024 Jan 24.
White matter hyperintensities (WMH) are a prevalent radiographic finding in the aging brain studies. Research on WMH association with motor impairment is mostly focused on the lower-extremity function and further investigation on the upper-extremity is needed. How different degrees of WMH burden impact the network of activation recruited during upper limb motor performance could provide further insight on the complex mechanisms of WMH pathophysiology and its interaction with aging and neurological disease processes.
40 healthy elderly subjects without a neurological/psychiatric diagnosis were included in the study (16F, mean age 69.3 years). All subjects underwent ultra-high field 7 T MRI including structural and finger tapping task-fMRI. First, we quantified the WMH lesion load and its spatial distribution. Secondly, we performed a data-driven stratification of the subjects according to their periventricular and deep WMH burdens. Thirdly, we investigated the distribution of neural recruitment and the corresponding activity assessed through BOLD signal changes among different brain regions for groups of subjects. We clustered the degree of WMH based on location, numbers, and volume into three categories; ranging from mild, moderate, and severe. Finally, we explored how the spatial distribution of WMH, and activity elicited during task-fMRI relate to motor function, measured with the 9-Hole Peg Test.
Within our population, we found three subgroups of subjects, partitioned according to their periventricular and deep WMH lesion load. We found decreased activity in several frontal and cingulate cortex areas in subjects with a severe WMH burden. No statistically significant associations were found when performing the brain-behavior statistical analysis for structural or functional data.
WMH burden has an effect on brain activity during fine motor control and the activity changes are associated with varying degrees of the total burden and distributions of WMH lesions. Collectively, our results shed new light on the potential impact of WMH on motor function in the context of aging and neurodegeneration.
脑白质高信号(WMH)是老年人群脑部影像学检查中普遍存在的一种表现。目前,关于 WMH 与运动功能障碍之间的关联研究大多集中在下肢功能方面,而对上肢的研究则需要进一步深入。不同程度的 WMH 负荷如何影响上肢运动表现过程中激活的网络,这可能为进一步深入了解 WMH 病理生理学的复杂机制以及其与衰老和神经退行性疾病过程的相互作用提供新的视角。
本研究纳入了 40 名无神经/精神疾病诊断的健康老年人(16 名女性,平均年龄 69.3 岁)。所有受试者均接受了超高场 7T MRI 检查,包括结构像和手指敲击任务 fMRI。首先,我们对 WMH 病变负荷及其空间分布进行了量化。其次,我们根据受试者的侧脑室周围和深部 WMH 负荷进行了数据驱动的分组。然后,我们调查了不同脑区之间的神经募集分布以及相应的血氧水平依赖信号变化引起的活动情况。我们根据位置、数量和体积将 WMH 程度聚类为轻度、中度和重度三组。最后,我们探索了 WMH 的空间分布以及任务 fMRI 期间诱发的活动与运动功能之间的关系,运动功能采用 9 孔插棒测试进行评估。
在我们的人群中,我们根据受试者的侧脑室周围和深部 WMH 病变负荷将其分为三个亚组。我们发现,在 WMH 负荷严重的受试者中,几个额叶和扣带回皮质区域的活动减少。在对结构或功能数据进行脑-行为统计分析时,未发现统计学显著关联。
WMH 负荷会对上肢精细运动控制期间的大脑活动产生影响,并且活动变化与 WMH 病变的总负荷和分布程度有关。总的来说,我们的研究结果为 WMH 对衰老和神经退行性变背景下运动功能的潜在影响提供了新的认识。