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AuthorMoustafa, Ahmed A.
AuthorPorter, Angela
AuthorMegreya, Ahmed M.
Available date2020-08-18T08:34:15Z
Publication Date2019
Publication NameReviews in the Neurosciences
ResourceScopus
ISSN3341763
URIhttp://dx.doi.org/10.1515/revneuro-2019-0068
URIhttp://hdl.handle.net/10576/15569
AbstractMany students suffer from anxiety when performing numerical calculations. Mathematics anxiety is a condition that has a negative effect on educational outcomes and future employment prospects. While there are a multitude of behavioral studies on mathematics anxiety, its underlying cognitive and neural mechanism remain unclear. This article provides a systematic review of cognitive studies that investigated mathematics anxiety. As there are no prior neural network models of mathematics anxiety, this article discusses how previous neural network models of mathematical cognition could be adapted to simulate the neural and behavioral studies of mathematics anxiety. In other words, here we provide a novel integrative network theory on the links between mathematics anxiety, cognition, and brain substrates. This theoretical framework may explain the impact of mathematics anxiety on a range of cognitive and neuropsychological tests. Therefore, it could improve our understanding of the cognitive and neurological mechanisms underlying mathematics anxiety and also has important applications. Indeed, a better understanding of mathematics anxiety could inform more effective therapeutic techniques that in turn could lead to significant improvements in educational outcomes. -2019 Walter de Gruyter GmbH, Berlin/Boston 2019.
Languageen
PublisherDe Gruyter
Subjectamygdala
cognition
distraction
inhibition
mathematics anxiety
neural networks
prefrontal cortex
TitleMathematics anxiety and cognition: An integrated neural network model
TypeArticle


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