Psychologische aspecten bij taalontwikkelingsstoornissen

december 2006
  • H.F.M. Peters
  • R. Bastiaanse
  • J. Van Borsel
  • K. Jansonius-Schultheiss
  • P.H.O. Dejonckere
  • Sj. Van der Meulen
  • B.J.E. Mondelaers
Chapter

Samenvatting

Psychologie is de wetenschap die menselijk gedrag in zijn alledaagse omgeving en in bijzondere omstandigheden bestudeert. Psychologen willen dit gedrag onderzoeken, beschrijven, begrijpen, maar vooral kunnen voorspellen. Kinderen met taalontwikkelingsstoornissen worden vaak onderzocht door ontwikkelingspsychologen, maar steeds vaker ook door neuropsychologen. In dit katern wordt vooral ingegaan op neuropsychologisch onderzoek bij kinderen met taalontwikkelingsstoornissen.

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Literatuur

  1. Annett, M. (2002). Handedness and brain Asymmetry: The Right Shift Theory. Routledge: Hardcover.Google Scholar
  2. Atkinson, R.C., & Shiffrin, R.M. (1968). Human memory: A proposed system and its control processes. In K.W. Spence & J.T. Spence (eds). The Psychology of Learning and Motivation. New York: Academic Press.Google Scholar
  3. Baddeley, A., & Hitch, G. (1974). Working Memory. In G.A. Boer (ed.). The psychology of learGoogle Scholar
  4. ning and motivation (Vol. 8). New York: Academic Press.Google Scholar
  5. Baddeley, A.D. (1986). Working Memory. Oxford: Clarendon Press.Google Scholar
  6. Balter, M. (2001). First ‘Speech Gene’ identified. Academic Press: Daily Insight. Science, 3.Google Scholar
  7. Barkley, R.A. (1997). ADHD and the nature of self-control. New York: The Guilford Press.Google Scholar
  8. Barkley, R.A. (2001). The Executive Functions and Self-Regulation: An Evolutionary Neuropsychological Perspective. Neuropsychology Review, 11 (1), 1-29.Google Scholar
  9. Bates, E., Benigni, L., Bretherthon, I., Camaioni, L., & Volterra, V. (1979). The emergence of symbols: Cognition and communication in infancy. San Diego, CA: Academic Press.Google Scholar
  10. Bates, E. Vicari, S., & Trauner, D. (1999). Neural mediation of language development: Perspectives from lesion studies of infants and children. In H. Tager Flusberg (ed). Neurodevelopmental disorders (pp. 533-581). Cambridge: Bradford Books.Google Scholar
  11. Bishop, D.V.M. (1992). The underlying nature of specific language impairment. Journal of Child Psychology and Psychiatry, 33, 3-66Google Scholar
  12. Bishop, D.V.M. (1997). Uncommon understanding. Development and disorders of language comprehension in children. Hove UK: Psychology Press.Google Scholar
  13. Bishop, D.V.M. (2005). Handedness and specific language impairment: a study of 6-yearold twins. Developmental Psychology, 46, 362-269.Google Scholar
  14. Bishop, D.V.M., & Adams, C. (1991). What do referential communication tasks measure? A study of children with specific language impairment. Applied Pscholinguistics, 12, 199-215.Google Scholar
  15. Bishop, D.V.M., Carlyon, R.P., Deeks, J.M., & Bishop, S.J. (1999). Auditory temporal processing impairment: neither necessary nor sufficient for causing language impairment in children. Journal of Speech, Language and Hearing Research, 42, 1295-1310.Google Scholar
  16. Bishop, D.V.M., & Snowling, M. (2004). Developmental dyslexia and Specific Language Impairment: Same or different? Psychological Bulletin, 130, 858-886.Google Scholar
  17. Bree, E., de, Gerrits, E., Jong, J. de, & Wilsenach, C. (2004). Early language development in Specific Language Impairment and Dyslexia: A prospective and comparative study. Utrecht Institute of Linguistics ots, Utrecht University, Netherlands.Google Scholar
  18. Brivio, L., Grasso, R., Salvaggio, A., & Principi, N. (1993). Brain-stem auditory evoked potentials (baeps): maturation of interpeak latency I-V (ipl-v) in the first years of life. Electroencephalography Clinical Neurophysiology, 88, 28-31.Google Scholar
  19. Burgess, P. W., Alderman, N., Evans, J., Emslie, H., & Wilson, B. (1998). The ecological validity of tests of executive function. Journal of the International Neuropsychological Society, 4, 547-558.Google Scholar
  20. Camarata, S., Newhoff, M., & Rugg, B. (1981). Perspective taking in normal and language disordered children. Proceedings of the Symposium on Research in Child Language Disorders, 2, 81-88. Madison: University of Wisconsin, Madison.Google Scholar
  21. Carter, R. (1998) Mapping the Mind. London: Weidenfeld and Nicolson.Google Scholar
  22. Casby, M.W., & Della Corte, M. (1987). Symbolic play performance and early language development. Journal of Psycholinguistic Research, 16, 31-42.Google Scholar
  23. Chomsky, N. (1980). Rules and Representations. New York: Columbia University Press.Google Scholar
  24. Collins, R.L. (1975). When left-handed mice live in a right-handed world. Science, 187, 181-184.Google Scholar
  25. Corrigan, R. (1978). Language development as related to stage 6 object permanence development. Journal of Child Language, 5, 173-189.Google Scholar
  26. Cosmides, L., & Tooby, J. (1992). Cognitive adaptations for social exchange. In J. Barkow, L. Cosmides & J. Tooby (eds). The adapted mind: Evolutionary psychology and the generation of culture (pp. 163-228). New York: Oxford University Press.Google Scholar
  27. Curtiss, S. (1977). Genie: A Psycholinguistic Study of a Modern Day ‘Wild Child’. New York: Academic Press.Google Scholar
  28. Donnai, D., & Karmiloff-Smith, A. (2000). Williams Syndrome: From genotype through the cognitive phenotype. American Journal of Medical Genetics, 97, 164-171.Google Scholar
  29. Edwards, J., & Lahey, M. (1998). Auditory lexical decisions of children with specific language impairment. Journal of Speech and Hearing Research, 39, 1263-1273.Google Scholar
  30. Elliot, L.L., & Hammer, M.A. (1993). Fine grained auditory discrimination: Factor structures. Journal of Speech and Hearing Research, 93, 396-409.Google Scholar
  31. Ellis Weismer, S. (1991). Hypothese-testing abilities of languag-impaired children. Journal of Speech and Hearing Research, 34, 1329-1338.Google Scholar
  32. Ellis Weismer, S., & Hesketh, L.J. (1996). The inf luence of prosodic and gestural cues on novel word acquisition by children with specific language impairment. Journal of Speech and Hearing Research, 36, 1013-1025.Google Scholar
  33. Ellis Weismer, S., Plante, E., Jones, M., & Tomblin, J.B. (2005). A functional magnetic resonance imaging investigation of verbal working memory in adolescents with specific language impairment. Journal of Speech, Language and Hearing Research, 48, 405-425.Google Scholar
  34. Fodor, J.A. (1983). The modularity of mind. Cambridge, MA: Bradford Books.Google Scholar
  35. Foundas, A.L., Leonard, C.M., & Heilman, K.M. (1995). Morphologic cerebral asymmetries and handedness: The pars triangularis and planum temporale. Archives of Neurology, 52, 501-508.Google Scholar
  36. Franken, K. (1998). Sprekend een spelend kind. Doctoraalscriptie Rijksuniversiteit Utrecht.Google Scholar
  37. Gathercole, S.E., & Baddeley, A.D. (1993). Working Memory and Language. Hove UK: Lawrence Erlbaum Associates.Google Scholar
  38. Geschwind, N., & Galaburda, A.M. (1987). Cerebral lateralization: biological mechanisms, associations and pathology. Cambridge: MIT press.Google Scholar
  39. Gillam, R.B., & Hoffman, L.M. (2004). Information processing and language learning in children with specific language impairment. In L. Verhoeven & H. van Balkom (eds). Classification of developmental language disorders: Theoretical issues and clinical implications (pp. 137-157). Hove UK: Lawrence Erlbaum.Google Scholar
  40. Grant, D.A., & Berg, E.A. (1993). Wisconsin Card Sorting Test: WCST. Odessa, Florida: Psychological Assessment Resources.Google Scholar
  41. Grigorenko, E..L., Wood, F.B., Meyer, M.S., Hart, L.A., Speed, W.C., Shuster, A., & Pauls, D.L. (1997). Susceptibility loci for distinct components of developmental dyslexia on chromosomes 6 and 15. The American Journal of Human Genetics, 60, 27-39.Google Scholar
  42. Günther, Th. (2005). Attentional Dysfunctions and its Pharmacological Modulation in Childhood Psychiatric Disorders: Evidence from Neuropsychological Studies. Promotie Faculteit der Geneeskunde Maastricht.Google Scholar
  43. Hoffman, L.M., & Gillam, R.B. (2004). Verbal and Spatial Information Processing Constraints in Children with and without Specific Language Impairment. Journal of Speech, Language and Hearing Research, 47 (1), 114-125.Google Scholar
  44. Hoskins, B. (1979). A study of hypothesis testing behaviour in language disordered children. Convention of the American Speech-Language-Hearing Association, Atlanta.Google Scholar
  45. Johnston, J.R. & Ellis Weismer, S. (1983). Mental rotation abilities in language disordered children. Journal of Speech and Hearing Research, 26, 397-403. Johnston, J.R., & Ramstad, V. (1983). Cognitive development in pre-adolescent language impaired children. The British Journal of Disorders of Communication, 18, 49-55.Google Scholar
  46. Kail, R. (1994). A method of studying the generalized slowing hypothesis in children with specific language impairment. Journal of Speech and Hearing Research, 37, 418-421.Google Scholar
  47. Kail, R. Hale, C.A., Leonard, L.B., & Nippold, M. (1984). Lexical storage and retrieval in language-impaired children. Applied Psycholinguistics, 5, 37-49.Google Scholar
  48. Kail, R., & Leonard, L. (1986). Word-finding abilities in language-impaired children. asha Monographs, no. 25.Google Scholar
  49. Kamhi, A.G. (1988). A reconceptualization of generalization and generalization problems. Language, Speech, and Hearing Services in Schools, 19, 304-313.Google Scholar
  50. Kinsbourne, M., & Caplan, P.J. (1979). The Overfocused Child. In Children’s Learning and Attention Problems, Chapter 8. Boston: Little, Brown & Company.Google Scholar
  51. Knecht, S., Dröger, B., Deppe, M. Bobe, L., Lohmann, H., Rloël, A., Ringelstein, E., & Henningsen, H. (2000). Handedness and hemispheric language dominance in healthy humans. Brain, 123, 2512-2518.Google Scholar
  52. Leonard, L. (1998). Children with specific language impairment. Cambridge: MIT Press.Google Scholar
  53. Masterson, J. & Kamhi, A. (1992). Linguistic trade-offs in school-age children with and without language disorders. Journal of Speech and Hearing Research, 35, 1064-1075.Google Scholar
  54. Miller, G.A. (1956). The magical number seven, plus or minus two: Some limits on our capacity for processing information. Psychological Review, 63, 81-97.Google Scholar
  55. Mody, M. (1993). Bases of reading impairment in speech perception: A deficit in rate of auditory processing or in phonological coding. Doctoral dissertation, City University of New York.Google Scholar
  56. Montgomery, J.W. (1993). Haptic recognition of children with specific language impairment effects of response modality. Journal of Speech and Hearing Research, 36, 98-104.Google Scholar
  57. Näätänen, R. (1990). The role of attention in auditory information processing as revealed by event-related potentials and other brain measures of cognitive function. Behavorial and Brain Sciences, 13, 201-288.Google Scholar
  58. Njiokiktjien, Ch. (2004). Gedragsneurologie van het kind. Amsterdam: Suyi.Google Scholar
  59. Nippold, M. Erskine, B., & Freed, D. (1988). Proportional and functional analogical reasoning in normal and language-impaird children. Journal of Speech and Hearing Research, 53, 440-448.Google Scholar
  60. Oosterlaan, J. & Sergeant, J.A. (1995). Response choice and inhibition in adhd, anxious and aggressive children: The relationship between S-R compatibility and the stop signal task. In J.A. Sergeant (ed.). Eunethydis: European Approaches to Hyperkinetic Disorder. Amsterdam: Editor, pp. 225-240.Google Scholar
  61. Panther, K. & Steckol, K. (1981). Training symbolic play skills in language impaired children. Convention of the American Speech-Language-Hearing Association, Los Angeles.Google Scholar
  62. Purvis, K.L., & Tannock, R. (1997). Language abilities in children with attention deficit hyperactivity disorder, reading disabilities, and normal controls. Journal of Abnormal Child Psychology, 25 (2), 133-144.Google Scholar
  63. Rubin, K.H. Fein, G.G., & Vandenberg, B. (1983). Play. In P.H. Mussen (ed). Handbook of Child Psychology (Vol. 4) (pp. 693-774). New York: John Wiley & Sons.Google Scholar
  64. Schie, H.T. van (2003). Visual semantics. Veenendaal: Universal Press.Google Scholar
  65. Shafer, V.L., Shucard, D.W., Shucard, J.L., & Gerken, L.A. (1998). An electrophysiological study of infants’ sensitivity to the sound patterns of English. Journal of Speech, Language, Hearing Research, 41, 874-886.Google Scholar
  66. Strien, J.W., van (2001). Handvoorkeur en taaldominantie. Neuropraxis, 2, 10-15.Google Scholar
  67. Stuss, D.T., & Benton, D.F. (1986). The Frontal lobes. New York: Raven.Google Scholar
  68. Sussman, J.E. (1993). Perception of formant transition cues to place of articulation in children with language impairments. Journal of Speech and Hearing Research, 36, 12861299.Google Scholar
  69. Swanson, H.L., & Ashbaker, M.H. (2000). Working Memory, Short-term Memory, Speech Rate, Word Recognition and Reading Comprehension in Learning Disabled Readers: Does the Executive System Have a Role? Intelligence, 28 (1), 1-30.Google Scholar
  70. Tallal, P., & Piercy, P. (1974). Developmental aphasia: Rate of auditory processing and selective impairment of consonant perception. Neuropsychologia, 12, 83-93.Google Scholar
  71. Welsh, M.C., & Pennington, B.F. (1988). Assessing frontal lobe function in children: Views from developmental psychology. Developmental Neuropsychology, 4 (3), 199-230.Google Scholar
  72. Williams. D., Stott, C.M., Goodyer, I.M., & Sahakian, B.J. (2000). Specific language impairment with or without hyperactivity: Neuropsychological evidence for frontostriatal dysfunction. Developmental Medicine & Child Neurology, 42, 368-375.Google Scholar
  73. Wyke, M.A., & Asso, D. (1979). Perception and memory for spatial relations in children with developmental dysphasia. Neuropsychologia, 17, 231-239.Google Scholar

Copyright information

© Bohn Stafleu van Loghum 2014

Authors and Affiliations

  • H.F.M. Peters
  • R. Bastiaanse
  • J. Van Borsel
  • K. Jansonius-Schultheiss
  • P.H.O. Dejonckere
  • Sj. Van der Meulen
  • B.J.E. Mondelaers

There are no affiliations available

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