Tidying up white matter: Neuroplastic transformations in sensorimotor tracts following slackline skill acquisition

IF 3.5 2区 医学 Q1 NEUROIMAGING Human Brain Mapping Pub Date : 2024-11-11 DOI:10.1002/hbm.26791
Karl Koschutnig, Bernhard Weber, Andreas Fink
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Abstract

This study investigated changes in white matter (WM) morphology following complex motor learning, that is, the learning to walk a slackline. A sample of young adults from the general population underwent brain imaging before the slackline intervention, after successful learning, and after a subsequent follow-up period by applying state-of-the-art measures for the assessment of micro- and macrostructural characteristics of WM fiber tracts (voxel-based and fixel-based). A randomly assigned control group (CG) was scanned at the same time points of assessment but received no intervention over the study period. Learning to walk a slackline resulted in manifold changes in WM morphology: (1) Whole brain fixel-based analyses revealed robust increases in the fiber cross-section in bundles closely associated with sensorimotor functions (e.g., superior longitudinal fasciculi, corticospinal tract); (2) The neurite orientation dispersion and density imaging (NODDI) parameters showed widespread decreases in overlapping fiber bundles. In the CG, no time-related WM changes were apparent at all. This well-controlled longitudinal intervention study provides substantial new evidence that learning a complex motor skill modulates fiber organization and fiber density in sensorimotor tracts.

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整理白质:掌握松绳技能后感觉运动束的神经可塑性转变。
本研究调查了复杂运动学习(即学习走松绳)后白质(WM)形态的变化。研究人员从普通人群中抽取了一批年轻成年人,分别在学习前、学习成功后和随后的随访期进行了脑成像,并采用最先进的方法评估了白质纤维束的微观和宏观结构特征(基于体素和基于定点)。随机分配的对照组(CG)在相同的评估时间点进行扫描,但在研究期间未接受任何干预。学习走钢索导致了WM形态的多方面变化:(1)基于固定点的全脑分析显示,与感觉运动功能密切相关的纤维束(如上纵筋束、皮质脊髓束)的纤维横截面显著增加;(2)神经元定向分散和密度成像(NODDI)参数显示,重叠纤维束普遍减少。在 CG 中,与时间相关的 WM 变化完全不明显。这项控制良好的纵向干预研究提供了大量新证据,证明学习复杂的运动技能会调节感觉运动束中的纤维组织和纤维密度。
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来源期刊
Human Brain Mapping
Human Brain Mapping 医学-核医学
CiteScore
8.30
自引率
6.20%
发文量
401
审稿时长
3-6 weeks
期刊介绍: Human Brain Mapping publishes peer-reviewed basic, clinical, technical, and theoretical research in the interdisciplinary and rapidly expanding field of human brain mapping. The journal features research derived from non-invasive brain imaging modalities used to explore the spatial and temporal organization of the neural systems supporting human behavior. Imaging modalities of interest include positron emission tomography, event-related potentials, electro-and magnetoencephalography, magnetic resonance imaging, and single-photon emission tomography. Brain mapping research in both normal and clinical populations is encouraged. Article formats include Research Articles, Review Articles, Clinical Case Studies, and Technique, as well as Technological Developments, Theoretical Articles, and Synthetic Reviews. Technical advances, such as novel brain imaging methods, analyses for detecting or localizing neural activity, synergistic uses of multiple imaging modalities, and strategies for the design of behavioral paradigms and neural-systems modeling are of particular interest. The journal endorses the propagation of methodological standards and encourages database development in the field of human brain mapping.
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