Neurofunctional plasticity in fraction learning: An fMRI training study

Fractions are known to be difficult for children and adults. Behavioral studies suggest that magnitude processing of fractions can be improved via number line estimation (NLE) trainings, but little is known about the neural correlates of fraction learning. To examine the neuro-cognitive foundations...

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Bibliographic Details
Published in:Trends in neuroscience and education 2020-12, Vol.21, p.100141-100141, Article 100141
Main Authors: Wortha, Silke M., Bloechle, Johannes, Ninaus, Manuel, Kiili, Kristian, Lindstedt, Antero, Bahnmueller, Julia, Moeller, Korbinian, Klein, Elise
Format: Article
Language:English
Subjects:
Cognitive science
Education
Flow experience
fMRI
Fraction processing
Humanities and Social Sciences
Neuroscience
Number line estimation training
Numerical distance effect
Psychology
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Summary:Fractions are known to be difficult for children and adults. Behavioral studies suggest that magnitude processing of fractions can be improved via number line estimation (NLE) trainings, but little is known about the neural correlates of fraction learning. To examine the neuro-cognitive foundations of fraction learning, behavioral performance and neural correlates were measured before and after a five-day NLE training. In all evaluation tasks behavioral performance increased after training. We observed a fronto-parietal network associated with number magnitude processing to be recruited in all tasks as indicated by a numerical distance effect. For symbolic fractions, the distance effect on intraparietal activation was only observed after training. The absence of a distance effect of symbolic fractions before the training could indicate an initially less automatic access to their overall magnitude. NLE training facilitates processing of overall fraction magnitude as indicated by the distance effect in neural activation.
ISSN:2211-9493
2211-9493
DOI:10.1016/j.tine.2020.100141