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• Meck WH, Church RM, (1983) A mode control model of counting and timing processes. Journal of Experimental Psychology: Animal Behavior Processes 9: 320-334.
• Walsh V, (2003) A theory of magnitude: common cortical metrics of time, space and quantity. Trends in Cognitive Sciences 7: 483-488.
• Bueti D, Walsh V, (2009) The parietal cortex and the representation of time, space, number and other magnitudes. Philosophical Transactions of the Royal Society B: Biological Sciences 364: 1831-1840.
• Piaget J, Szeminska A (1964) La genèse du nombre chez l'enfant. Neuchâtel, Switzerland: Delachaux et Niestlé.
• Feigenson L, (2007) The equality of quantity. Trends in Cognitive Sciences 11: 185-187.
• Mix KS, Huttenlocher J, Levine SC, (2002) Multiple cues for quantification in infancy: Is number one of them? Psychological Bulletin 128: 278-294.
• Clearfield MW, Mix KS, (1999) Number vs contour length in infants' discrimination of small visual sets. Psychological Science 10: 408-411.
• Clearfield MW, Mix KS, (2001) Amount versus number: Infants'use of area and contour length to discriminate small sets. Journal of Cognition and Development 2: 243-260.
• Feigenson L, Carey S, Spelke E, (2002) Infants' discrimination of number vs continous extent. Cognitive Psychology 44: 33-66.
• Rousselle L, Palmers E, Noël MP, (2004) Magnitude comparison in preschoolers: what counts? Influence of perceptual variables. Journal of Experimental Child Psychology 87: 57-84.
• Soltesz F, Szucs D, Szucs L, (2010) Relationships between magnitude representation, counting and memory in 4- to 7-year-old children: A developmental study. Behavioral and Brain Functions 6: 13.
• Rousselle L, Noël M-P, (2008) The development of automatic numerosity processing in preschoolers: Evidence for numerosity-perceptual interference. Developmental Psychology 44: 544-560.
• Simon TJ, (2008) A new account of the neurocognitive foundations of impairments in space, time and number processing in children with chromosome 22q11.2 deletion syndrome. Developmental Disabilities Research Reviews 14: 52-58.
• Mervis CB, Robinson BF, Bertrand J, Morris CA, Klein-Tasman BP, et al. (2000) The Williams Syndrome Cognitive Profile. Brain and Cognition 44: 604-628.
• Gao MC, Bellugi U, Dai L, Mills DL, Sobel EM, et al. (2010) Intelligence in Williams Syndrome Is Related to STX1A, Which Encodes a Component of the Presynaptic SNARE Complex. PLoS ONE 5: e10292.
• Howlin P, Davies M, Udwin O, (1998) Cognitive functioning in adults with Williams syndrome. Journal of Child Psychology & Psychiatry & Allied Disciplines 39: 183.
• Searcy YM, Lincoln AJ, Rose FE, Klima ES, Bavar N, et al. (2004) The Relationship Between Age and IQ in Adults With Williams Syndrome. American Journal on Mental Retardation 109: 231-236.
• Bellugi U, Mills D, Jernigan T, Hickok G, Galaburda A (1999) Linking cognition, brain structure and brain function in Williams syndrome. In: Tager-Flusberg H, editor. Neurodevelopmental disorders: Contributions to a new framework from the cognitive neurosciences. Cambridge, MA MIT Press. 111-136.
• Eckert M, Galaburda A, Mills D, Bellugi U, Korenberg J, et al. (2006) The neurobiology of Williams syndrome: Cascading influences of visual system impairment? Cellular and Molecular Life Sciences 63: 1867-1875.
• Eckert MA, Hu D, Eliez S, Bellugi U, Galaburda A, et al. (2005) Evidence for superior parietal impairment in Williams syndrome. Neurology 64: 152-153.
• Mobbs D, Eckert MA, Menon V, Mills D, Korenberg J, et al. (2007) Reduced parietal and visual cortical activation during global processing in Williams syndrome. Developmental Medicine & Child Neurology 49: 433-438.
• Meyer-Lindenberg A, Mervis CB, Faith Berman K, (2006) Neural mechanisms in Williams syndrome: a unique window to genetic influences on cognition and behaviour. Nature Reviews Neuroscience 7: 380-393.
• Dehaene S, Piazza M, Pinel P, Cohen L, (2003) Three parietal circuits for number processing. Cognitive Neuropsychology 20: 487-506.
• Tudusciuc O, Nieder A, (2007) Neuronal population coding of continuous and discrete quantity in the primate posterior parietal cortex. Proceedings of the National Academy of Sciences 104: 14513-14518.
• Bellugi U, Zona Lai U, Wang P, (1997) Language, communication, and neural systems in Williams syndrome. Mental Retardation & Developmental Disabilities Research Reviews 3: 334-342.
• Farran EK, Jarrold C, Gathercole SE, (2001) Block Design Performance in the Williams Syndrome Phenotype: A Problem with Mental Imagery? Journal of Child Psychology & Psychiatry & Allied Disciplines 42: 719.
• Farran EK, Jarrold C, (2003) Visuospatial Cognition in Williams Syndrome: Reviewing and Accounting for the Strengths and Weaknesses in Performance. Developmental Neuropsychology 23: 173-200.
• Hoffman JE, Landau B, Pagani B, (2003) Spatial breakdown in spatial construction: Evidence from eye fixations in children with Williams syndrome. Cognitive Psychology 46: 260-301.
• Klein BP, Mervis CB, (1999) Contrasting Patterns of Cognitive Abilities of 9- and 10-Year-Olds With Williams Syndrome or Down Syndrome. Developmental Neuropsychology 16: 177.
• Mervis C, Morris CA, Bertrand J, Robinson BF (1999) Williams syndrome: Findings from an integrated program of research. In: Tager-Flusberg H, editor. Neurodevelopmental disorders: Contributions to a new framework from the cognitive neurosciences. Cambridge, MA MIT Press. 65-110.
• Stiles J, Sabbadini L, Capirci O, Volterra V, (2000) Drawing Abilities in Williams Syndrome: A Case Study. Developmental Neuropsychology 2: 213-235.
• Volterra V, Longobardi E, Pezzini G, Vicari S, Antenore C, (1999) Visuo-spatial and linguistic abilities in a twin with Williams syndrome. Journal of Intellectual Disability Research 43: 294-305.
• Wang PP, Doherty S, Rourke SB, Bellugi U, (1995) Unique Profile of Visuo-Perceptual Skills in a Genetic Syndrome. Brain and Cognition 29: 54-65.
• Bellugi U, Lichtenberger L, Jones W, Lai Z, St. George M, (2000) I. The Neurocognitive Profile of Williams Syndrome: A Complex Pattern of Strengths and Weaknesses. Journal of Cognitive Neuroscience 12: 7-29.
• Mervis CB, John AE, (2010) Cognitive and behavioral characteristics of children with Williams syndrome: Implications for intervention approaches. American Journal of Medical Genetics Part C: Seminars in Medical Genetics 154C: 229-248.
• Jarrold C, Baddeley AD, Hewes AK, Phillips C, (2001) A Longitudinal Assessment of Diverging Verbal and Non-Verbal Abilities in the Williams Syndrome Phenotype. Cortex 37: 423-431.
• Thibaut JP, Fayasse M (2009) Approche neuropsychologique du syndrome de Williams: Aspects visuo-spatiaux. In: Poncelet M, Majreus S, Van der Linden M, editors. Traité de neurospsychologie de l'enfant. Marseille: Solal. 549-572.
• Levitin DJ, Cole K, Chiles M, Lai Z, Lincoln A, et al. (2004) Characterizing the Musical Phenotype in Individuals With Williams Syndrome. Child Neuropsychology 10: 223-247.
• Levitin DJ, (2005) Musical Behavior in a Neurogenetic Developmental Disorder: Evidence from Williams Syndrome. Annals of the New York Academy of Sciences 1060: 325-334.
• Dykens EM, Rosner BA, Ly T, Sagun J, MacLean JWE, (2005) Music and Anxiety in Williams Syndrome: A Harmonious or Discordant Relationship? American Journal on Mental Retardation 110: 346-358.
• Ansari D, Donlan C, Thomas MSC, Ewing SA, Peen T, et al. (2003) What makes counting count? Verbal and visuo-spatial contributions to typical and atypical number development. Journal of Experimental Child Psychology 85: 50-62.
• Paterson S, Girelli L, Butterworth B, Karmiloff-Smith A, (2006) Are numerical impairments syndrome specific? Evidence from Williams syndrome and Down's syndrome. Journal of Child Psychology and Psychiatry 47: 190-204.
• Ansari D, Donlan C, Karmiloff-Smith A, (2007) Typical and Atypical Development of Visual Estimation Abilities. Cortex 43: 758-768.
• Krajcsi A, Lukács A, Igács J, Racsmány M, Pléh C, (2009) Numerical abilities in Williams syndrome: dissociating the analogue magnitude system and verbal retrieval. Journal of Clinical and Experimental Neuropsychology 31: 439-446.
• O'Hearn K, Landau B, (2007) Mathematical skill in individual with Williams syndrome: Evidence from a standardized mathematics battery. Brain and Cognition 64: 238-246.
• Udwin O, Davies M, Howlin P, (1996) A longitudinal study of cognitive abilities and educational attainment in Williams syndrome. Developmental Medicine and Child Neurology 39: 1020-1029.
• Van Herwegen J, Ansari D, Xu F, Karmiloff-Smith A, (2008) Small and large number processing in infants and toddlers with Williams syndrome. Developmental Science 11: 637-343.
• Xu F, (2003) Numerosity discrimination in infants: evidence for two systems of representations. Cognition 89: B15-25.
• Xu F, Spelke ES, (2000) Large number discrimination in 6-month-old infants. Cognition 74: B1-B11.
• Xu F, Spelke ES, Goddard S, (2005) Number sense in human infants. Developmental Science 8: 88-101.
• Xuan B, Zhang D, He S, Chen X (2007) Larger stimuli are judged to last longer. Journal of Vision 7.
• Oliveri M, Vicario CM, Salerno S, Koch G, Turriziani P, et al. (2008) Perceiving numbers alters time perception. Neuroscience Letters 438: 308-311.
• Vicario CM, Pecoraro P, Turriziani P, Koch G, Caltagirone C, et al. (2008) Relativistic Compression and Expansion of Experiential Time in the Left and Right Space. PLoS ONE 3: e1716.
• Droit-Volet S, Clément A, Fayol M, (2003) Time and number discrimination in a bisection task with a sequence of stimuli: A developmental approach. Journal of Experimental Child Psychology 84: 63-76.
• de Hevia M-D, Spelke ES, (2009) Spontaneous mapping of number and space in adults and young children. Cognition 110: 198-207.
• de Hevia M-D, Girelli L, Bricolo E, Vallar G, (2008) The representational space of numerical magnitude: Illusions of length. Quarterly Journal of Experimental Psychology 61: 1496-1514.
• Brown S, (1997) Attentional resources in timing: Interference effects in concurrent temporal and nontemporal working memory tasks. Attention, Perception, & Psychophysics 59: 1118-1140.
• Fischer MH, (2001) Number processing induces spatial performance biases. Neurology 57: 822-826.
• Dormal V, Seron X, Pesenti M, (2006) Numerosity-duration interference: A Stroop experiment. Acta Psychologica 121: 109-124.
• Dormal V, Pesenti M, (2007) Numerosity-length interference: A Stroop experiment. Experimental Psychology 54: 289-297.
• Baddeley A, (1998) Recent developments in working memory. Current Opinion in Neurobiology 8: 234-238.
• Baddeley A, Hitch G (1974) Working memory. In: Bower GA, editor. The psychology of learning and motivation. New York: Academic Press. 47-89.
• Halberda J, Mazzocco MMM, Feigenson L, (2008) Individual differences in non-verbal number acuity correlates with maths achievement. Nature 455: 665-669.
• Defever E, Sasanguie D, Gebuis T, Reynvoet B, (2011) Children's representation of symbolic and nonsymbolic magnitude examined with the priming paradigm. Journal of Experimental Child Psychology 109: 174-186.
• Mazzocco MMM, Feigenson L, Halberda J, (2011) Impaired Acuity of the Approximate Number System Underlies Mathematical Learning Disability (Dyscalculia). Child Development 82: 1224-1237.
• Lourenco SF, Bonny JW, Fernandez EP, Rao S, (2012) Nonsymbolic number and cumulative area representations contribute shared and unique variance to symbolic math competence. Proceedings of the National Academy of Sciences 109: 18737-18742.
• Wechsler D (2005) WISC IV: Echelle d'intelligence de Wechsler pour enfants et adolescents-Quatrième édition Paris: Les Editions du Centre de Psychologie Appliquée.
• Wechsler D (2004) WPPSI-III: Echelle d'intelligence de Wechsler pour la période pré-scolaire et primaire-Troisième édition. Paris: Les Editions du Centre de Psychologie Appliquée.
• Le Corre M, Carey S, (2007) One, two, three, four, nothing more: An investigation of the conceptual sources of the verbal counting principle. Cognition 105: 395-438.
• Wynn K, (1992) Children's acquisition of the number words and the counting system. Cognitive Psychology 24: 220-251.
• Wynn K, (1990) Children's understanding of counting. Cognition 36: 155-193.
• Noël M-P, (2009) Counting on working memory when learning to count and to add: A preschool study. Developmental Psychology 45: 1630-1643.
• Halberda J, Feigenson L, (2008) Developmental change in the acuity of the "number sense": The approximate number system in 3-, 4-, 5-, and 6-year-olds and adults. Developmental Psychology 44: 1457-1465.
• Pica P, Lemer C, Izard V, Dehaene S, (2004) Exact and approximate arithmetic in an Amazonian indigene group. Science 306: 499-503.
• Cappelletti m, Freeman ED, Butterworth BL (2011) Time processing in dyscalculia. Frontiers in Psychology 2.
• Gebuis T, Kenemans JL, de Haan EHF, van der Smagt MJ, (2010) Conflict processing of symbolic and non-symbolic numerosity. Neuropsychologia 48: 394-401.
• Vicari S, Carlesimo G, Brizzolara D, Pezzini G, (1996) Short-term memory in children with Williams syndrome: A reduced contribution of lexical-semantic knowledge to word span. Neuropsychologia 34: 919-925.
• Vicari S, Brizzolara D, Giovanni AC, Pezzini G, (1996) Memory abilities in children with Williams syndrome. Cortex: A Journal Devoted to the Study of the Nervous System and Behavior 32: 503-514.
• Jarrold C, Baddeley AD, Hewes AK, (1999) Genetically dissociated components of working memory: evidence from Downs and Williams syndrome. Neuropsychologia 37: 637-651.
• Wang PP, Bellugi U, (1994) Evidence from two genetic syndromes for a dissociation between verbal and visual-spatial short-term memory. Journal of Clinical and Experimental Neuropsychology 16: 317-322.
• Dehaene S, Changeux J-P, (1993) Development of elementary numerical habilities: a neuronal model. Journal of Cognitive Neuroscience 5: 390-407.
• Mussolin C, Nys J, Leybaert J, Content A, (2012) Relationships between approximate number system acuity and early symbolic number abilities. Trends in Neuroscience and Education 1: 21-31.
• Piazza M, Facoetti A, Trussardi AN, Berteletti I, Conte S, et al. (2010) Developmental trajectory of number acuity reveals a severe impairment in developmental dyscalculia. Cognition 116: 33-41.
• Holloway ID, Ansari D, (2009) Mapping numerical magnitudes onto symbols: the numerical distance effect and individual differences in children's mathematics achievement. Journal of Experimental Child Psychology 103: 17-29.
• Mundy E, Gilmore CK, (2009) Children's mapping between symbolic and nonsymbolic representations of number. Journal of Experimental Child Psychology 103: 490-502.
• Rousselle L, Noël M-P, (2007) Basic numerical skills in children with mathematics learning disabilities: A comparison of symbolic vs non-symbolic number magnitude. Cognition 102: 361-395.
• De Smedt B, Gilmore CK, (2010) Defective number module or impaired access? Numerical magnitude processing in first graders with mathematical difficulties. Journal of Experimental Child Psychology 108: 278-292.