Numerical and non-numerical ordinality processing in children with and without developmental dyscalculia: Evidence from fMRI

Ordinality is – beyond numerical magnitude (i.e., quantity) – an important characteristic of the number system. There is converging empirical evidence that (intra)parietal brain regions mediate number magnitude processing. Furthermore, recent findings suggest that the human intraparietal sulcus (IPS...

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Veröffentlicht in:	Cognitive development 2009, Vol.24 (4), p.486-494
Hauptverfasser:	Kaufmann, L., Vogel, S.E., Starke, M., Kremser, C., Schocke, M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Brain Brain Hemisphere Functions Children Cognitive Development Cognitive Processes Comparative Analysis Developmental Disabilities Diagnostic Tests fMRI Intraparietal sulcus Learning Disabilities Number processing Number Systems Numeracy Ordinality Supramarginal gyrus
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container_end_page	494
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container_title	Cognitive development
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creator	Kaufmann, L. Vogel, S.E. Starke, M. Kremser, C. Schocke, M.
description	Ordinality is – beyond numerical magnitude (i.e., quantity) – an important characteristic of the number system. There is converging empirical evidence that (intra)parietal brain regions mediate number magnitude processing. Furthermore, recent findings suggest that the human intraparietal sulcus (IPS) supports magnitude and ordinality in a domain-general way. However, the latter findings are derived from adult studies and with respect to children (i.e., developing brain systems) both the neural correlates of ordinality processing and the precise role of the IPS (domain-general vs. domain-specific) in ordinality processing are thus far unknown. The present study aims at filling this gap by employing functional magnetic resonance imaging (fMRI) to investigate numerical and non-numerical ordinality knowledge in children with and without developmental dyscalculia. In children (without DD) processing of numerical and non-numerical ordinality alike is supported by (intra)parietal cortex, thus extending the notion of a domain-general (intra)parietal cortex to developing brain systems. Moreover, activation extents in response to numerical ordinality processing differ significantly between children with and without dyscalculia in inferior parietal regions (supramarginal gyrus and IPS).
doi_str_mv	10.1016/j.cogdev.2009.09.001
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There is converging empirical evidence that (intra)parietal brain regions mediate number magnitude processing. Furthermore, recent findings suggest that the human intraparietal sulcus (IPS) supports magnitude and ordinality in a domain-general way. However, the latter findings are derived from adult studies and with respect to children (i.e., developing brain systems) both the neural correlates of ordinality processing and the precise role of the IPS (domain-general vs. domain-specific) in ordinality processing are thus far unknown. The present study aims at filling this gap by employing functional magnetic resonance imaging (fMRI) to investigate numerical and non-numerical ordinality knowledge in children with and without developmental dyscalculia. In children (without DD) processing of numerical and non-numerical ordinality alike is supported by (intra)parietal cortex, thus extending the notion of a domain-general (intra)parietal cortex to developing brain systems. Moreover, activation extents in response to numerical ordinality processing differ significantly between children with and without dyscalculia in inferior parietal regions (supramarginal gyrus and IPS).</abstract><pub>Elsevier Inc</pub><doi>10.1016/j.cogdev.2009.09.001</doi><tpages>9</tpages></addata></record>
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subjects	Brain Brain Hemisphere Functions Children Cognitive Development Cognitive Processes Comparative Analysis Developmental Disabilities Diagnostic Tests fMRI Intraparietal sulcus Learning Disabilities Number processing Number Systems Numeracy Ordinality Supramarginal gyrus
title	Numerical and non-numerical ordinality processing in children with and without developmental dyscalculia: Evidence from fMRI
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