4.6 Article

Direct Neural Evidence for the Contrastive Roles of the Complementary Learning Systems in Adult Acquisition of Native Vocabulary

Journal

CEREBRAL CORTEX
Volume -, Issue -, Pages -

Publisher

OXFORD UNIV PRESS INC
DOI: 10.1093/cercor/bhab422

Keywords

aging; fMRI; language; semantics; vocabulary learning

Categories

Funding

  1. Medical Research Council National Productivity Investment Fund PhD studentship
  2. Rosetrees Trust [A1699]
  3. European Research Council [GAP: 670428 - BRAIN2MIND_NEUROCOMP]
  4. Medical Research Council [MR/R023883/1, MC_UU_00005/18]

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The CLS theory provides a framework for understanding the acquisition, consolidation, and generalization of new knowledge. The study on the consolidation and retention of newly learned native vocabulary in adults revealed that retrieval of new items involved a combination of regions associated with episodic memory and language-semantic areas. The shifting division of labor across these networks was based on the consolidation status of the items, with hippocampal activity predicting naming retention months later.
The Complementary Learning Systems (CLS) theory provides a powerful framework for considering the acquisition, consolidation, and generalization of new knowledge. We tested this proposed neural division of labor in adults through an investigation of the consolidation and long-term retention of newly learned native vocabulary with post-learning functional neuroimaging. Newly learned items were compared with two conditions: 1) previously known items to highlight the similarities and differences with established vocabulary and 2) unknown/untrained items to provide a control for non-specific perceptual and motor speech output. Consistent with the CLS, retrieval of newly learned items was supported by a combination of regions associated with episodic memory (including left hippocampus) and the language-semantic areas that support established vocabulary (left inferior frontal gyrus and left anterior temporal lobe). Furthermore, there was a shifting division of labor across these two networks in line with the items' consolidation status; faster naming was associated with more activation of language-semantic areas and lesser activation of episodic memory regions. Hippocampal activity during naming predicted more than half the variation in naming retention 6 months later.

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