Improving Language Acquisition and Processing With Cognitive Stimulation
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https://hdl.handle.net/10037/23756Date
2021-05-14Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Cognitive functions are essential in human development in general, and they play a key role
in language learning, as well as in reading and writing. A large body of evidence makes the
relationship between executive functions and language acquisition and processing indisputable
[Moser et al., 2007; Mazuka et al., 2009; Woodard et al., 2016; see also the meta-analysis by Swanson
et al. (2009)]. Lexical-semantic processing has been associated with inhibition skills (Khanna and
Boland, 2010) and with working memory and information updating (Weiland et al., 2014), whereas
syntactic processing has been linked with inhibition, shifting, updating (Novick et al., 2005; Roberts
et al., 2007). Memory updating has been suggested to underlie both sentence comprehension
(Daneman and Carpenter, 1980) and production (Slevc, 2011). Furthermore, executive functions
have also been correlated with the development of phonological awareness (Risso et al., 2015).
Broadly speaking, the neuroscientific literature has consistently shown that executive functions and
language skills are interrelated, suggesting an overlap of the neural processes involved [see Slot and
Von Suchodoletz (2018)].
Despite the large body of research demonstrating the close link between executive functions
and language skills, it is yet to be established the possible bidirectionality or reciprocality between
the development of both macro-systems and the associated skills. Following the notion of brain
plasticity and the expansion-partial renormalization hypothesis (EPH) (Pliatsikas, 2020), any
new cognitive effort, such as acquiring a new language, may produce a change in the neural
system and pathways (e.g., increasing the number of synapses, generating new dendritic spines, or
strengthening neural connections) related to this learned skill. With this being so, and using digital
biomarkers, one could potentially quantify the specific changes in the cognitive system induced by
language learning, but more importantly, one could also determine the best cognitive foundations
on which language learning could be built by virtue of establishing the reciprocal connections
between domain-general executive functions and language acquisition. Furthermore, as RojasBarahona et al. (2015) proposed, a cognitive stimulation intervention focused on these biomarkers
could potentially increase and strengthen the neural network underlying language skills.
Publisher
Frontiers MediaCitation
Dunabeitia Landaburu, Tapia. Improving Language Acquisition and Processing With Cognitive Stimulation. Frontiers in Psychology. 2021Metadata
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