Procedural learning is associated with microstructure of basal ganglia-cerebellar circuitry in children

IF 2.2 3区心理学 Q3 NEUROSCIENCES

Brain and Cognition Pub Date : 2024-07-24 DOI:10.1016/j.bandc.2024.106204

Kaila M. Bianco , Ian Fuelscher , Jarrad A.G. Lum , Mervyn Singh , Pamela Barhoun , Timothy J. Silk , Karen Caeyenberghs , Jacqueline Williams , Peter G. Enticott , Mugdha Mukherjee , Gayatri Kumar , Jessica Waugh , Christian Hyde

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引用次数: 0

Abstract

In adults, individual differences in procedural learning (PL) are associated with white matter organization within the basal ganglia-cerebellar circuit. However, no research has examined whether this circuitry is related to individual differences in PL during childhood. Here, 28 children (M_age = 10.00 ± 2.31, 10 female) completed the serial reaction time (SRT) task to measure PL, and underwent structural magnetic resonance imaging (MRI). Fixel-Based Analysis was performed to extract specific measures of white matter fiber density (FD) and fiber cross-section (FC) from the superior cerebellar peduncles (SCP) and the striatal premotor tracts (STPMT), which underlie the fronto-basal ganglia-cerebellar system. These fixel metrics were correlated with the ‘rebound effect’ from the SRT task – a measure of PL proficiency which compares reaction times associated with generating a sequence, to random trials. While no significant associations were observed at the fixel level, a significant positive association was observed between average FD in the right SCP and the rebound effect, with a similar trend observed in the left SCP. No significant effects were detected in the STPMT. Our results indicate that, like in adults, microstructure of the basal ganglia-cerebellar circuit may explain individual differences in childhood PL.

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程序学习与儿童基底神经节-小脑回路的微结构有关。

在成人中，程序性学习（PL）的个体差异与基底神经节-小脑回路中的白质组织有关。然而，目前还没有研究表明这一回路是否与儿童期程序性学习的个体差异有关。在此，28 名儿童（年龄 = 10.00 ± 2.31，10 名女性）完成了序列反应时间（SRT）任务以测量 PL，并接受了结构性磁共振成像（MRI）检查。研究人员通过基于固定点的分析，提取了小脑上部神经节（SCP）和纹状体前运动束（STPMT）的白质纤维密度（FD）和纤维横截面（FC）的具体测量值，这些白质纤维密度和纤维横截面是前基底节-小脑系统的基础。这些定格指标与 SRT 任务的 "反弹效应 "相关，SRT 任务是对 PL 熟练程度的一种测量，它将与产生序列相关的反应时间与随机试验进行比较。虽然在定点水平上没有观察到明显的相关性，但在右侧 SCP 的平均 FD 与反弹效应之间观察到明显的正相关，左侧 SCP 也观察到类似的趋势。在 STPMT 中未发现明显影响。我们的研究结果表明，与成人一样，基底节-小脑回路的微观结构也可以解释儿童 PL 的个体差异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Brain and Cognition 医学-神经科学

CiteScore

4.60

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Brain and Cognition is a forum for the integration of the neurosciences and cognitive sciences. B&C publishes peer-reviewed research articles, theoretical papers, case histories that address important theoretical issues, and historical articles into the interaction between cognitive function and brain processes. The focus is on rigorous studies of an empirical or theoretical nature and which make an original contribution to our knowledge about the involvement of the nervous system in cognition. Coverage includes, but is not limited to memory, learning, emotion, perception, movement, music or praxis in relationship to brain structure or function. Published articles will typically address issues relating some aspect of cognitive function to its neurological substrates with clear theoretical import, formulating new hypotheses or refuting previously established hypotheses. Clinical papers are welcome if they raise issues of theoretical importance or concern and shed light on the interaction between brain function and cognitive function. We welcome review articles that clearly contribute a new perspective or integration, beyond summarizing the literature in the field; authors of review articles should make explicit where the contribution lies. We also welcome proposals for special issues on aspects of the relation between cognition and the structure and function of the nervous system. Such proposals can be made directly to the Editor-in-Chief from individuals interested in being guest editors for such collections.