Anatomical connectivity in children with developmental dyscalculia: A graph theory study.

Estévez-Pérez, N., Sanabria-Díaz, G., Castro-Cañizares, D., Reigosa-Crespo, V., Melie-García, M.

Keywords: graph theory, Developmental dyscalculia, Weber fraction, Anatomical connectivity

Abstract

Current theories postulate that numerical processing depends upon a brain circuit formed by regions and their connections; specialized in the representation and manipulation of the numerical properties of stimuli. It has been suggested that the damage of these network may cause Developmental Dyscalculia (DD): a persistent neurodevelopmental disorder that significantly interferes with academic performance and daily life activities that require mastery of mathematical notions and operations. However, most of the studies on the brain foundations of DD have focused on regions of interest associated with numerical processing, and have not addressed numerical cognition as a complex network phenomenon. The present study explored DD using a Graph Theory network approach. We studied the association between topological measures of integration and segregation of information processing in the brain proposed by Graph Theory; and individual variability in numerical performance in a group of 11 school-aged children with DD (5 of which presented with comorbidity with Developmental Dyslexia, the specific learning disorder for reading) and 17 typically developing peers. A statistically significant correlation was found between the Weber fraction (a measure of numerical representations' precision) and the Clustering Index (a measure of segregation of information processing) in the whole sample. The DD group showed significantly lower Characteristic Path Length (average shortest path length among all pairs of regions in the brain network) compared to controls. Also, differences in critical regions for the brain network performance (hubs) were found between groups. The presence of limbic hubs characterized the DD brain network while right Temporal and Frontal hubs found in controls were absent in the DD group. Our results suggest that the DD may be associated with alterations in anatomical brain connectivity that hinder the capacity to integrate and segregate numerical information.

Más información

Título de la Revista: PROGRESS IN BRAIN RESEARCH
Volumen: 282
Editorial: ELSEVIER ACADEMIC PRESS INC
Fecha de publicación: 2023
Página de inicio: 17
Página final: 47
Idioma: Inglés
URL: https://www.sciencedirect.com/science/article/abs/pii/S0079612323001073?via%3Dihub
DOI:

10.1016/bs.pbr.2023.10.001

Notas: ISI