Memoria de trabajo en niños de educación infantil con y sin bajo rendimiento matemático
- Presentación, M.J
- Siegenthaler, Rebeca
- Pinto, V.
- Mercader, Jesica
- Colomer, C.
- Fernández, I.
- Sanchiz, M. L.
- Miranda, A.
ISSN: 0214-9877
Argitalpen urtea: 2014
Zenbakien izenburua: Dificultades Educativas
Alea: 3
Zenbakia: 1
Orrialdeak: 233-244
Mota: Artikulua
Beste argitalpen batzuk: International Journal of Developmental and Educational Psychology: INFAD. Revista de Psicología
Laburpena
Este estudio se propone analizar la memoria de trabajo en niños de Educación Infantil con y sin bajo rendimiento matemático. La muestra estaba compuesta de 255 niños de 5 a 6 años, a los que se les aplicó pruebas neuropsicológicas de memoria de trabajo y el TEDI-MATH para estimar el rendimiento matemático. Los resultados destacan la capacidad de la memoria de trabajo verbal para diferenciar significativamente los grupos de niños con y sin dificultades en 8 de los 9 dominios matemáticos analizados. Este mismo factor junto con la memoria de trabajo viso-espacial estática diferencian al grupo de niños con riesgo de aprendizaje de las matemáticas.
Erreferentzia bibliografikoak
- Agostino, A., Johnson, J. y Pascual-Leone, J. (2010). Executive functions underlying multiplicative reasoning: Problem type matters. Journal of Experimental Child Psychology, 105(4), 286-305.
- Anderson, U. y Lyxell, B. (2007). Working memory deficit in children with mathematical difficulties: A general or specific deficit? Journal of Experimental Child Psychology, 96, 197-228.
- Brock, L.L., Rimm-Kaufman, S.E., Nathanson, L. y Grimm, K.J. (2009). The contribution of “hot” and “cold” executive function to children´s academic achievement, learning-related behaviors, and engagement in kindergarten. Early Childhood Research Quarterly, 24(3), 337-349.
- Bull, R., Espy, K.A. y Wiebe, S.A. (2008). Short-term memory, working memory, and executive functioning in preschoolers: Longitudinal predictors of mathematical achievement at age 7 years. Developmental Neuropsychology, 33, 205-228.
- Clark, C.A., Pritchard, V.E. y Woodward, L.J. (2010). Preschool executive functioning predict early mathematics achievement. Developmental Psychology, 41(5), 1176-1191.
- D’Amico, A. y Guarnera, M. (2005). Exploring working memory in children with low arithmetical achievement. Learning and Individual Differences, 15, 189-202.
- Diamond, A. y Lee, K. (2011). Interventions shown to aid executive function development in children 4 to 12 years old. Science, 333, 959-964.
- Fuchs, L.S., Cimpton, D.L., Fuchs, D., Pauklsen, K., Bryant, J.D. y Hamlet, C.L. (2005). The prevention, identification, and cognitive determinants of mathematical difficulty. Journal of Educational Psychology, 97, 493 513.
- Geary, D.C., Hoard, M.K., Nugent, L. y Byrd-Craven, J. (2008). Development of number line representations in children with mathematical learning disability. Developmental Neuropsychology, 33, 277-299.
- Grégoire, J., Noël, M.P. y Van Nieuwenhoven, C. (2005). Tedi-Math. Manual. Madrid: TEA.
- Henry, L. y MacLean, M. (2003) Relationships between working memory, expressive vocabulary and arithmetical reasoning in children with and without intellectual disabilities. Educational and Child Psychology, 20(3), 51-63.
- Holmes, J. y Adams, J.W. (2006). Workin memory and children´s mathematical skills: Implications for mathematical development and mathematics curricula. Educational Psychology, 26(3), 339-366.
- Klingberg, T. (2010). Training and plasticity of working memory. Trends in Cognitive Sciences, 14, 317-324.
- Kyttälä, M. y Lehto, J. (2008). Some factors underlying mathematical performance: The role of visuospatial working memory and non-verbal intelligence. European Jorunal of Psychology of Education, XXII (1), 77-94.
- Landerl, K., Bevan, A. y Butterworth, B. (2004). Developmental dyscalculia and basic numerical capacities: A stsudy of 8-9 year old students. Cognition, 93, 99-125.
- Mabbott, D.J. y Bisanz, J. (2008). Computational skills, working memory, and conceptual knowledge in older children with mathematics learning disabilities. Journal of Learning Disabilities, 41, 15-28.
- McKenzie, B., Bull, R. y Gray, C. (2003). The effects of visual-spatial and phonological disruption on children‘s arithmetical skills. Educational and Child Psychology, 20, 93-108.
- Miranda, A., Colomer, C., Fernández, I. y Presentación, M.J. (2012). Executive Functioning and Motivation of Children with Attention Deficit Hyperactivity Disorder (ADHD) on Problem Solving and Calculation Tasks. Revista de Psicodidáctica, 17(1), 51-71.
- Passolunghi, M.C. y Cornoldi, C. (2008). Working memory failures in children with arithmetical difficulties. Child Neuropsychology, 14(5), 387-400.
- Passolunghi, M.C. y Siegel, L.S. (2004). Working memory and access to numerical information in children with disability in mathematics. Journal of Experimental Child Psychology, 88, 348-367.
- Pickering, S., Baqués, J. y Gathercole, S. (1999). Batería de tests de memoria de trabajo. Departamento de Psicología Experimental, Universidad de Bristol/Facultad de Psicología, Universidad Autónoma de Barcelona.
- Raghubar, K.P., Barnes, M.A. y Hecht, S.A. (2010). Working memory and mathematics: A review of developmental, individual difference, and cognitive approaches. Learning and Individual Differences, 20, 110-122.
- Siegel, L.S. y Ryan, E.B. (1989). The development of working memory in normally achieving and subtypes of learning disabled children. Child Development, 60(4), 973-980.
- Spreen, O. y Strauss, E. (1991). A compendium of neuropsychological tests: Administration, norms and commentary. New York: Oxford University Press.
- Stock, P., Desoete, A. y Roeyers, H. (2009). Screening for mathematical disabilities in Kindergarten. Developmental Neurorehabilitation, 12(6), 389-396.
- Swanson, H.L. y Jerman, O. (2006). Math Disabilities: A selective meta-analysis of the literature. Review of Educational Research, 76, 249-274.
- Toll, S.W.M., Van der Ven, S.H.G., Kroesbergen, E.H. y Van Luit, J.E.H. (2011). Executive functions as predictors of math learning disabilities. Journal of Learning Disabilities, 44(6), 521-532.
- Van der Sluis, S., Van der Leij, A. y de Jong, P.F. (2005). Working memory in Dutch children with Reading and arithmetic-related LD. Journal of Learning Disabilities, 38, 207-221.
- Wechsler, D. (1967). Manual for the Wechsler Preschool and Primary Scale of Intelligence. San Antonio, TX: The Psychological Corporation.
- Wu, S.S., Meyer, M.L., Maeda, U., Saslimpoor, V., Tomiyama, S., Geary, D.C. et al. (2008). Standarized assessment of strategy use and working memory in early mental arithmetical performance. Developmental Neuropsychology, 33, 365- 393.