Short-term number sense training recapitulates long-term neurodevelopmental changes from childhood to adolescence

IF 3.1 1区 心理学 Q2 PSYCHOLOGY, DEVELOPMENTAL
Yunji Park, Yuan Zhang, Hyesang Chang, Vinod Menon
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引用次数: 0

Abstract

Number sense is fundamental to the development of numerical problem-solving skills. In early childhood, children establish associations between non-symbolic (e.g., a set of dots) and symbolic (e.g., Arabic numerals) representations of quantity. The developmental estrangement theory proposes that the relationship between non-symbolic and symbolic representations of quantity evolves with age, with increased dissociation across development. Consistent with this theory, recent research suggests that cross-format neural representational similarity (NRS) between non-symbolic and symbolic quantities is correlated with arithmetic fluency in children but not in adolescents. However, it is not known if short-term training (STT) can induce similar changes as long-term development. In this study, children aged 7–10 years underwent a theoretically motivated 4-week number sense training. Using multivariate neural pattern analysis, we investigated whether short-term learning could modify the relation between cross-format NRS and arithmetic skills. Our results revealed a significant correlation between cross-format NRS and arithmetic fluency in distributed brain regions, including the parietal and prefrontal cortices, prior to training. However, this association was no longer observed after training, and multivariate predictive models confirmed these findings. Our findings provide evidence that intensive STT during early childhood can promote behavioral improvements and neural plasticity that resemble and recapitulate long-term neurodevelopmental changes that occur from childhood to adolescence. More generally, our study contributes to our understanding of the malleability of number sense and highlights the potential for targeted interventions to shape neurodevelopmental trajectories in early childhood.

Research Highlights

  • We tested the hypothesis that short-term number sense training induces the dissociation of symbolic numbers from non-symbolic representations of quantity in children.
  • We leveraged a theoretically motivated intervention and multivariate pattern analysis to determine training-induced neurocognitive changes in the relation between number sense and arithmetic problem-solving skills.
  • Neural representational similarity between non-symbolic and symbolic quantity representations was correlated with arithmetic skills before training but not after training.
  • Short-term training recapitulates long-term neurodevelopmental changes associated with numerical problem-solving from childhood to adolescence.
短期数感训练可重现从童年到青春期的长期神经发育变化
数感是发展解决数字问题技能的基础。在幼儿期,儿童会在数量的非符号表征(如一组点)和符号表征(如阿拉伯数字)之间建立联系。发展疏离理论认为,数量的非符号表征与符号表征之间的关系会随着年龄的增长而演变,在整个发展过程中,两者之间的疏离程度会增加。与这一理论相一致的是,最近的研究表明,非符号量和符号量之间的跨格式神经表征相似性(NRS)与儿童的算术流畅性相关,但与青少年的算术流畅性无关。然而,短期培训(STT)是否能引起与长期发展类似的变化,目前尚不得而知。在本研究中,7-10 岁的儿童接受了为期 4 周的数感训练。通过多变量神经模式分析,我们研究了短期学习是否会改变跨格式 NRS 与算术技能之间的关系。我们的结果显示,在训练前,包括顶叶和前额叶皮层在内的分布式脑区的交叉格式 NRS 与算术流畅性之间存在明显的相关性。然而,这种关联在训练后不再被观察到,多变量预测模型证实了这些发现。我们的研究结果提供了证据,证明在儿童早期进行强化 STT 可以促进行为改善和神经可塑性,这种改善和可塑性类似于并再现从儿童期到青春期发生的长期神经发育变化。更广泛地说,我们的研究有助于我们了解数感的可塑性,并突出了有针对性的干预措施在幼儿期塑造神经发育轨迹的潜力。 研究亮点 我们测试了短期数感训练诱导儿童符号数字与非符号数量表征分离的假设。我们利用理论上的干预措施和多元模式分析,确定了数感与算术解题技能之间的关系在训练诱导下发生的神经认知变化。非符号数量表征与符号数量表征之间的神经表征相似性在训练前与算术技能相关,而在训练后则不相关。短期培训再现了从儿童到青少年时期与数字问题解决相关的长期神经发育变化。
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来源期刊
CiteScore
8.10
自引率
8.10%
发文量
132
期刊介绍: Developmental Science publishes cutting-edge theory and up-to-the-minute research on scientific developmental psychology from leading thinkers in the field. It is currently the only journal that specifically focuses on human developmental cognitive neuroscience. Coverage includes: - Clinical, computational and comparative approaches to development - Key advances in cognitive and social development - Developmental cognitive neuroscience - Functional neuroimaging of the developing brain
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