Zusammenfassung
Probleme mit der Zahlenverarbeitung und/oder dem Rechnen treten sowohl als sog. erworbene Rechenstörungen (Akalkulie) als auch in Form von entwicklungsbedingten Rechenstörungen auf (Entwicklungsdyskalkulie). Bei Akalkulie können infolge einer erworbenen Hirnschädigung (z. B. aufgrund eines Schlaganfalles, Schädel-Hirn-Traumas oder Hirntumors) auch Erwachsene mit zuvor guten arithmetischen Fähigkeiten spezifische Defizite beim Rechnen entwickeln. Die neurokognitiven Grundlagen von Akalkulie werden in diesem Kapitel erläutert und neuronale Plastizität, die etwaigen Rehabilitationserfolgen unterliegt, diskutiert.
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Literatur
Berger H (1926) Über Rechenstörungen bei Herderkrankungen des Gehirns. Archiv für Psychiatrie und Nervenkrankheiten 78: 238–263
Bernal B, Ardila A, Altman NR (2003) Acalculia: an fMRI study with implications with respect to brain plasticity. Int J Neurosci 113: 1505–1523
Boller F, Grafman J (1985) Acalculia. In: Frederiks JAM (ed) Handbook of clinical neurology, vol 1(45): Clinical neuropsychology. Elsevier, Amsterdam, pp 473–481
Butterworth B (1999) The mathematical brain. Macmillan, London
Cipolotti L, van Harskamp NJ (2001) Disturbances of number processing and calculation. In: Boller F, Grafman J (eds) Handbook of neuropsychology. Elsevier, Amsterdam, pp 305–331
Claros-Salinas D, Willmes K (2000) Störungen der Zahlenverarbeitung. In: Sturm W, Herrmann M, Wallesh CW (Hrsg) Lehrbuch der Klinischen Neuropsychologie. Swets Zeitlinger, Lisse, S 521–536
Claros-Salinas D, Nuerk H-C, Willmes, K (2009) Störungen der Zahlenverarbeitung. In: Sturm W, Hermann M, Münte T (Hrsg) Lehrbuch der klinischen Neuropsychologie: Grundlagen, Methoden, Diagnostik, Therapie. 2. Aufl. Spektrum, Heidelberg, S 619–640
Cohen L, Dehaene S, Chochon F, Lehéricy S Naccache L (2000) Language and calculation within the parietal lobe: A combined cognitive, anatomical and fMRI study. Neuropsychologia 38: 1426–1440
Chochon F, Cohen L, van de Moortele PF, Dehaene S (1999) Differential contributions of the left and right parietal lobules to number processing. J Cogn Neurosci 11: 617–630
Dehaene S (1992) Varieties of numerical abilities. Cognition 44: 1–42
Dehaene S (2000) Cerebral bases of number processing and calculation. In: Gazzaniga MS (ed) The new cognitive neurosciences. MIT Press, Cambridge, pp 987–998
Dehaene S, Cohen L (1995) Towards an anatomical and functional model of number processing. Math Cogn 1: 83–120
Dehaene S, Cohen L (1997) Cerebral pathways for calculation: Double dissociation between rote verbal and quantitative knowledge of arithmetic. Cortex 33: 219–250
Dehaene S, Spelke E, Pinel P, Stanescu R, Tsivkin S (1999) Sources of mathematical thinking: Behavioral and brain-imaging evidence. Science 284: 970–974
Dehaene S, Piazza M, Pinel P, Cohen L (2003) Three parietal circuits for number processing. Cogn Neuropsych 20: 487–506
Delazer M, Bartha L (2001) Transcoding and calculation in aphasia. Aphasiology 15: 649–679
Delazer M, Domahs F, Bartha L, Lochy A, Trieb T, Benke T (2003) Learning complex arithmetic – a fMRI study. Cogn Brain Res 18: 76–88
Delazer M, Benke T, Thomas Trieb T, Schocke M, Ischebeck A (2006) Isolated numerical skills in posterior cortical atrophy – An fMRI study. Neuropsych 44: 1909–1913
Deloche G, Willmes K (2000) Cognitive neuropsychological models of adult calculation and number processing: the role of the surface format of numbers. Eur Child Adolesc Psychiatry 9 (Suppl 2): 27–40
Grafman J (1988) Acalculia. In: Boller F, Grafman J (eds) Handbook of neuropsychology, Vol 1. Elsevier, Amsterdam, pp 414–430
Hécaen H, Angelergues R, Houllier S (1961) Les varietes cliniques des acalculies au cours des lesions retro-rolandiques: Approche statistique du probleme. Revue Neurologique 105: 85–103
Henschen SE (1919) Über Sprach-, Musik- und Rechenmechanismen und ihre Lokalisationen im Grosshirn. Zeitschrift für die gesamte Neurologie und Psychiatrie 52: 273–298
Huber W, Poeck K, Weniger D, Willmes K (1983) Der Aachener Aphasie Test (AAT). Hogrefe, Göttingen
Ischebeck A, Zamarian L, Egger K, Schocke M, Delazer M (2007) Imaging early practice effects in arithmetic. NeuroImage 36: 993–1003
Ischebeck AK, Heim S, Siedentopf C, Zamarian L, Schocke M, Kremser C, Egger K, Strenge H, Scheperjans F, Delazer M (2008) Are numbers special? Comparing the generation of verbal materials from orderd categories (months) to numbers and other categories (animals) in an fMRI study. Hum Brain Mapp 29: 894–909
Klein E, Nuerk H-C, Wood G, Knops A, Willmes K (2009) The exact versus approximate distinction in numerical cognition may not be exact, but only approximate: How different processes work together in multi-digit addition. Brain Cogn 2: 369–381
Knops A, Nuerk H-C, Fimm B, Vohn R, Willmes K (2006) A special role for numbers in working memory? An fMRI study. NeuroImage 29: 1–14
Kucian K, Loenneker T, Dietrich T, Dosch M, Martin E, von Aster M (2006) Impaired neural networks for approximate calculation in dyscalculic children: a functional MRI study. Behav Brain Funct 2: 31, 1–17
Lee KM (2000) Cortical areas differentially involved in multiplication and subtraction: A functional magnetic resonance imaging study and correlation with a case of selective acalculia. Ann Neurol 48: 657–661
Lemer C, Dehaene S, Spelke E, Cohen L (2003) Approximate quantities and exact number words: dissociable systems. Neuropsychologia 41: 1942–1958
Levin HS, Scheller J, Rickard T, Grafman J, Martinkowski K, Winslow M, Mirvis S (1996) Dyscalculia and dyslexia after right hemisphere injury in infancy. Arch Neurol 53: 88–96
Price CJ, Friston KJ (2002) Functional imaging studies of neuropsychological patients: Applications and limitations. Neurocase 8: 345–354
Romero SG, Manly CF, Grafman J (2002) Investigating cognitive neuroplasticity in single cases: Lessons learned from applying functional neurimaging techniques to the traditional neuropsychological case study framework. Neurocase 8: 355–368
Rueckert L, Lange N, Partiot A, Appollonio I, Litvar I, Le Bihan D, Grafman J (1996) Visualizing cortical activation during mental calculation with functional MRI. NeuroImage 3: 97–103
Stanescu-Cosson R, Pinel P, van de Moortele PF, Le Bihan D, Cohen L, Dehaene S (2000) Understanding dissociations in dyscalculia: a brain imaging study of the impact of number size on the cerebral networks for exact and approximate calculation. Brain 123: 2240–2255
Willmes K (2002) Mathematische Leistungen und Akalkulien. In: Karnath H-O, Thier P (Hrsg) Neuropsychologie. Springer, Heidelberg, S 417–435
Willmes K (2006) Akalkulie. In: Karnath H-O, Hartje W, Ziegler W (Hrsg) Kognitive Neurologie. Thieme, Stuttgart, S 84–95
Willmes K (2008) Acalculia. In: Goldenberg G, Miller BL (eds) Handbook of Clinical Neurology, vol. 88 (3rd series): Neuropsychology and behavioral neurology. Elsevier, Amsterdam, pp 339–358
Willmes K (2012) Mathematische Leistungen und Akalkulien. In: Karnath H-O, Thier P (Hrsg) Neuropsychologie, 3. Aufl. Springer, Berlin Heidelberg New York, S 503–525
Zamarian L, Ischebeck A, Delazer M (2009) Neuroscience of learning arithmetic – Evidence from brain imaging studies. Neurosci Biobehav Rev 33: 909–925
Zaunmüller L, Domahs F, Dressel K, Lonnemann J, Klein E, Ischebeck A, Willmes K (2009) Rehabilitation of arithmetic fact retrieval via extensive practice: A combined fMRI and behavioural case study. Neuropsychol Rehabil 19: 422–443
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Willmes, K., Klein, E., Nuerk, HC. (2013). Akalkulie. In: Schneider, F., Fink, G.R. (eds) Funktionelle MRT in Psychiatrie und Neurologie. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-29800-4_36
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