EEG Resting-State and Event-Related Potentials as Markers of Learning Success in Older Adults Following Second Language Training: A Pilot Study.

Brain plasticity (Amsterdam, Netherlands) Pub Date : 2021-10-19 eCollection Date: 2021-01-01 DOI:10.3233/BPL-200117

Maria Kliesch, Nathalie Giroud, Martin Meyer

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Abstract

Objectives: In this pilot study, we evaluated the use of electrophysiological measures at rest as paradigm-independent predictors of second language (L2) development for the first time in older adult learners. We then assessed EEG correlates of the learning outcome in a language-switching paradigm after the training, which to date has only been done in younger adults and at intermediate to advanced L2 proficiency.

Methods: Ten (Swiss) German-speaking adults between 65-74 years of age participated in an intensive 3-week English training for beginners. A resting-state EEG was recorded before the training to predict the ensuing L2 development (Experiment 1). A language-switching ERP experiment was conducted after the training to assess the learning outcome (Experiment 2).

Results: All participants improved their L2 skills but differed noticeably in their individual development. Experiment 1 showed that beta1 oscillations at rest (13-14.5 Hz) predicted these individual differences. We interpret resting-state beta1 oscillations as correlates of attentional capacities and semantic working memory that facilitate the extraction and processing of novel forms and meanings from the L2 input.In Experiment 2, we found that language switching from the L2 into the native language (L1) elicited an N400 component, which was reduced in the more advanced learners. Thus, for learners beginning the acquisition of an L2 in third age, language switching appears to become less effortful with increasing proficiency, suggesting that the lexicons of the L1 and L2 become more closely linked.

Conclusions: In sum, our findings extend the available evidence of neurological processes in L2 learning from younger to older adults, suggesting that electrophysiological mechanisms are similar across the lifespan.

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脑电静息状态和事件相关电位作为老年人第二语言训练后学习成功的标志:一项初步研究。

目的：在这项试点研究中，我们首次评估了老年学习者在休息时使用电生理测量作为第二语言（L2）发展的范式独立预测因素。然后，我们在训练后的语言转换范式中评估了脑电图与学习结果的相关性，迄今为止，这只在年轻人和中高级二语水平的人中进行。方法：10名年龄在65-74岁之间的讲德语的成年人参加了为期3周的针对初学者的强化英语培训。在训练之前记录静息状态EEG，以预测随后的L2发展（实验1）。结果：所有受试者的二语能力均有所提高，但在个体发展上存在显著差异。实验1表明，β1在静止时振荡（13-14.5 Hz）预测了这些个体差异。我们将静息状态β1振荡解释为注意能力和语义工作记忆的相关性，这有助于从L2输入中提取和处理新的形式和含义。在实验2中，我们发现从L2到母语（L1）的语言转换引发了N400成分，而在更高级的学习者中，这一成分减少了。因此，对于在第三年龄开始学习第二语言的学习者来说，随着熟练程度的提高，语言转换似乎变得不那么费力，这表明第一语言和第二语言词典的联系更加紧密。结论：总之，我们的研究结果将L2学习的神经过程的现有证据从年轻人扩展到老年人，这表明整个生命周期的电生理机制是相似的。

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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Brain plasticity (Amsterdam, Netherlands)

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