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Developmental Neurorehabilitation Volume 12, 2009 - Issue 6
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Original

Screening for mathematical disabilities in kindergarten

Pieter Stock Ghent University, Gent, Belgium
,
Annemie Desoete Ghent University, Gent, BelgiumCorrespondence[email protected]
&
Herbert Roeyers Ghent University, Gent, Belgium
Pages 389-396 | Received 10 May 2009, Accepted 17 May 2009, Published online: 05 Mar 2010

References

  • Desoete A. Co-morbidity in mathematical learning disabilities: Rule or exception?. The Open Rehabilitation Journal 2008; 1: 15–26
  • Rouselle L, Noel MP. Basic numerical skills in children with mathematics learning disabilities: A comparison of symbolic vs non-symbolic number magnitude processing. Cognition 2007; 102: 361–395
  • Mazzocco MMM, Myers GF. Complexities in identifying and defining mathematics learning disability in the primary school-age years. Annals of Dyslexia 2003; 53: 218–253
  • Stock P, Desoete A, Roeyers H. Focussing on mathematical disabilities: A search for definition, classification and assessment. Learning disabilities new research, SV Randall. Nova Science, New York 2006; 29–62
  • Barbaresi WJ, Katusic SK, Colligan RC, Weaver AL, Jacobsen SJ. Math learning disorder: Incidence in a population-based birth cohort, 1976–1982, Rochester, Minnesota. Ambulatory Pediatrics 2005; 5: 281–289
  • Dowker A. Individual differences in arithmetic. Implications for psychology, nuroscience and education. Psychology Press, New York 2005; 368
  • Geary DC. Mathematics and learning disabilities. Journal of Learning Disabilities 2004; 37: 4–15
  • Murphy MM, Mazzocco MMM, Hanich LB, Early MC. Cognitive characteristics of children with mathematics learning disability (MD) vary as a function of the cutoff criterion used to define MD. Journal of Learning Disabilities 2007; 40: 458–478
  • Grigsby JP, Kemper MB, Hagermann RJ. Developmental Gerstmann Syndrome without aphasia in Fragile X syndrome. Neuropsychologica 1987; 25: 881–891
  • Mazzocco MMM. Math learning disability and math LD subtypes: Evidence from studies of Turner syndrome, Fragile X syndrome and Neurofibromatosis type 1. Journal of Learning Disabilities 2001; 34: 520–533
  • Eliez S, Blasey CM, Menon V, White CD, Schmitt JE, Reiss AL. Functional brain imaging study of mathematical reasoning abilities in velocardiofacial syndrome (del22q11.2). Genetics in Medicine 2001; 3: 49–55
  • Njiokiktjien C. Gedragsneurologie van het kind. Suyi Publications, Amsterdam 2004; 1100, (in Dutch)
  • Seidenberg M, Beck N, Geisser M, Giordani B, Sackellares JC, Berent S, Dreifuss FE, Boll TJ. Academic achievement of children with epilepsy. Epilepsia 1986; 27: 753–759
  • Faraone SV, Biederman J, Lehman BK, Spencer T, Norman D, Seidman LJ, Kraus I, Perrin J, Chen WJ, Tsuang MT. Intellectual performance and school failure in children with attention deficit hyperactivity disorder and their siblings. Journal of Abnormal Psychology 1993; 102: 616–623
  • Manor O, Shalev RS, Joseph A, Gross-Tsur V. Arithmetic skills in kindergarten children with developmental language disorders. European Journal of Paediatric Neurology 2000; 5: 71–77
  • Shalev RS, Manor O, Auerbach J, Gross-Tsur V. Persistence of developmental dyscalculia: What counts? Results from a three year prospective follow-up study. Journal of Pediatrics 1998; 133: 358–362
  • Shalev RS, Auerbach J, Manor O, Gross-Tsur V. Developmental dyscalculia: Prevalence and prognosis. European Child & Adolescent Psychiatry 2000; 9: II59–II64
  • Jordan NC, Hanich LB, Kaplan BA. Longitudinal study of mathematical competencies in children with specific mathematics difficulties versus children with comorbid mathematics and reading difficulties. Child Development 2003; 74: 834–850
  • Desoete A, Ceulemans A, Roeyers H, Huylebroeck A. Subitizing or counting as possible screening variables for learning disabilities in mathematics education or learning. Educational Research Review 2009; 4: 55–66
  • Geary DC, Brown SC. Cognitive addition: Strategy choice and speed-of-processing differences in gifted, normal, and mathematically disabled children. Developmental Psychology 1991; 27: 398–406
  • Geary DC, Hoard MK, Byrd-Craven J, Nugent L, Numtee C. Cognitive mechanisms underlying achievement deficits in children with mathematical learning disability. Child Development 2007; 78: 1343–1359
  • Shalev RS. Developmental dyscalculia. Journal of Child Neurology 2004; 19: 765–771
  • Passolunghi MC, Siegel LS. Working memory and access to numerical information in children with disability in mathematics. Journal of Experimental Child Psychology 2004; 88: 348–367
  • Van der Sluis S, De Jong PF, Van der Leij A. Executive functioning in children, and its relations with reasoning, reading, and arithmetic. Intelligence 2007; 35: 427–449
  • Butterworth B. The mathematical brain. MacMillan, London 1999; 480
  • Dehaene S. Précis of the number sense. Mind and Language 2001; 16: 16–36
  • Dehaene S, Piazza M, Pinel P, Cohen L. Three parietal circuits for number processing. Cognitive Neuropsychology 2003; 20: 487–506
  • Landerl K, Bevan A, Butterworth B. Developmental dyscalculia and basic numerical capacities: A study of 8–9 year old students. Cognition 2004; 93: 99–125
  • Nuerk HC, Kaufmann L, Zoppoth S, Willmes K. On the development of the mental number line: More or less or never holistic with increasing age?. Developmental Psychology 2004; 40: 1199–1211
  • Dehaene S, Tzourio N, Frak V, Raynaud L, Cohen L, Mehler J, Mazoyer B. Cerebral activations during number multiplication and comparison: A PET study. Neuropsychologia 1996; 29: 1097–1106
  • Cornoldi C, Lucangeli D. Aritmetic education and learning disabilities in Italy. Journal of Learning Disabilities 2004; 37: 42–49
  • Rourke BP, Conway JA. Disabilities of arithmetic and mathematical reasoning: Perspectives from neurology and neuropsychology. Journal of Learning Disabilities 1997; 30: 34–46
  • Cornoldi C, Venneri A, Marconato F, Molin A, Montinaro C. A rapid screening measure for the identification of visuospatial learning disability in schools. Journal of Learning Disabilities 2003; 36: 299–306
  • Ginsburg HP. Mathematics learning disabilities: A view from developmental psychology. Journal of Learning Disabilities 1997; 30: 20–33
  • Desoete A, Roeyers H, De Clercq A. Children with mathematics learning disabilities in Belgium. Journal of Learning Disabilities 2004; 37: 50–61
  • Coleman MR, Buysse V, Neitzel J. Recognition and response. An early intervening system for young children at-risk for learning disabilities. Research synthesis and recommendations. UNIC FPG Child Development Institute, Chapel Hill 2006; 4
  • Fuchs LS, Fuchs D, Compton DL, Bryant JD, Hamlett CL, Seethaler PM. Mathematics screening and progress monitoring at first grade: Implications for responsiveness to intervention. Exceptional Children 2007; 73: 311–330
  • Gersten R, Jordan NC, Flojo JE. Early identification and intervention for students with mathematics difficulties. Journal of Learning Disabilities 2005; 38: 293–304
  • Piaget J, Szeminska A. La genèse du nombre chez l’enfant. Delanchaux et Niestlé, Neuchâtel 1941
  • Piaget J. The child's conception of number. Norton, New York 1965
  • Lourenço O, Machado A. In defense of Piaget's theory: A reply to 10 common criticisms. Psychological Review 1996; 103: 143–164
  • Nunes T, Bryant P, Evans D, Bell D, Gardner S, Gardner A, Carraher J. The contribution of logical reasoning to the learning of mathematics in primary school. British Journal of Developmental Psychology 2007; 25: 147–166
  • Stock P, Desoete A, Roeyers H. Early markers for arithmetic difficulties. Educational and Child Psychology 2007; 24: 28–39
  • Grégoire J. Développement logique et compétences arithmétiques. Le modèle piagétien est-il toujours actuel?. Enseignement et apprentissage des mathématiques, M Crahay, L Verschaffel, E De Corte, J Grégoire. De Boeck, Brussels 2005; 57–77, (in French)
  • Johansson BS. Number-word sequence skill and arithmetic performance. Scandinavian Journal of Psychology 2005; 46: 157–167
  • Baroody AJ. Remedying common counting difficulties. Pathways to number, J Bideaud, C Meljac, JP Fischer. Erlbaum, Hillsdale, NJ 1992; 307–324
  • Aunola K, Leskinen E, Lerkkanen MK, Nurmi JE. Developmental dynamics of math performance from preschool to grade 2. Journal of Educational Psychology 2004; 96: 699–713
  • Le Fevre JA, Smith-Chant BL, Fast L, Skwarchuk SL, Sargla E, Arnup JS, Penner-Wilger M, Bisanz J, Kamawar D. What counts as knowing? The development of conceptual and procedural knowledge of counting from kindergarten through Grade 2. Journal of Experimental Child Psychology 2006; 93: 285–303
  • Lepola J, Niemi P, Kuikka M, Hannula MM. Cognitive-linguistic skills and motivation as longitudinal predictors of reading and arithmetic achievement: A follow-up study from kindergarten to grade 2. International Journal of Educational Research 2005; 43: 250–271
  • Houssaert J. Counting difficulties at Key Stage 2. Support for Learning 2001; 16: 11–16
  • Gelman R. First principles organize attention to and learning about relevant data: Number and animate-inanimate distinctions as examples. Cognitive Science 1990; 14: 79–106
  • Gelman R, Galistel CR. The child's understanding of number. Harvard University Press, Cambridge, MA 1978; 280
  • Geary DC, Bow-Thomas CC, Yao Y. Counting knowledge and skill in cognitive addition: A comparison of normal and mathematically disabled children. Journal of Experimental Child Psychology 1992; 54: 372–391
  • Jordan NC, Kaplan D, Olah LN, Locuniak MN. Number sense growth in kindergarten: A longitudinal investigation of children at risk for mathematics difficulties. Child Development 2006; 77: 153–175
  • Hannula MM, Lehtinnen E. Spontaneous focussing on numerosity and mathematical skills of young children. Learning and Instruction 2005; 15: 237–256
  • Laski EV, Siegler RS. Is 27 a big number? Correlational and causal connections among numerical categorization, number line estimation and numerical magnitude comparison. Child Development 2007; 78: 1723–1743
  • Durand M, Hulme C, Larkin R, Snowling M. The cognitive foundations of reading and arithmetic skills in 7- to 10-year olds. Journal of Experimental Child Psychology 2005; 91: 113–136
  • Desoete A, Grégoire J. Numerical competence in young children and in children with mathematics learning disabilities. Learning and Individual Differences 2007; 16: 351–367
  • Grégoire J, Noel M, Van Nieuwenhoven C. TEDI-MATH manual. TEMA. Antwerpen, Brussel/Harcourt 2004; 114, (in Dutch)
  • Desoete A. Validiteitsonderzoek met de TEDI-MATH. Diagnostiek-wijzer 2006; 9: 140–157, (in Dutch)
  • Reusser K. Success and failure in school mathematics: Effects of instruction and school environment. European Child & Adolescent Psychiatry 2000; 9: II/7–II/26

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