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Cognitive Neurodynamics
Erschienen in: Cognitive Neurodynamics 2/2013

01.04.2013 | Review Article

A hybrid model for the neural representation of complex mental processing in the human brain

verfasst von: Thorsten Fehr

Erschienen in: Cognitive Neurodynamics | Ausgabe 2/2013

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Abstract

In the present conceptual review several theoretical and empirical sources of information were integrated, and a hybrid model of the neural representation of complex mental processing in the human brain was proposed. Based on empirical evidence for strategy-related and inter-individually different task-related brain activation networks, and further based on empirical evidence for a remarkable overlap of fronto-parietal activation networks across different complex mental processes, it was concluded by the author that there might be innate and modular organized neuro-developmental starting regions, for example, in intra-parietal, and both medial and middle frontal brain regions, from which the neural organization of different kinds of complex mental processes emerge differently during individually shaped learning histories. Thus, the here proposed model provides a hybrid of both massive modular and holistic concepts of idiosyncratic brain physiological elaboration of complex mental processing. It is further concluded that 3-D information, obtained by respective methodological approaches, are not appropriate to identify the non-linear spatio-temporal dynamics of complex mental process-related brain activity in a sufficient way. How different participating network parts communicate with each other seems to be an indispensable aspect, which has to be considered in particular to improve our understanding of the neural organization of complex cognition.
Nächster Artikel Synaptic activity slows vesicular replenishment at excitatory synapses of rat hippocampus

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Literatur
Achtziger A, Fehr T, Oettingen G, Gollwitzer PM, Rockstroh B (2009) Strategies of intention formation are reflected in continuous MEG activity. Soc Neurosci 4:11–27PubMedCrossRef
Adleman NE, Menon V, Blasey CM, White CD, Warsofsky IS, Glover GH, Reiss AL (2002) A developmental fMRI study of the Stroop color-word task. Neuroimage 16:61–75PubMedCrossRef
Arsalidou M, Taylor MJ (2011) Is 2 + 2 = 4? Meta-analysis of brain areas needed for numbers and calculations. Neuroimage 54:2382–2393PubMedCrossRef
Ashcraft MH (1982) The development of mental arithmetic: a chronometric approach. Dev Rev 2:213–236CrossRef
Ashcraft MH (1987) Children’s knowledge of simple arithmetic: a developmental model and simulation. In: Bisanz J, Brainerd CJ, Kail R (eds) Formal methods in developmental psychology: progress in developmental research. Springer, New York, pp 302–338CrossRef
Atmanspacher H, Rotter S (2008) Interpreting neurodynamics: concepts and facts. Cogn Neurodyn 2:297–318PubMedCrossRef
Baddeley AD (1997) Human memory. Psychology Press, New York
Baron-Cohen S (1995) Mindblindness. MIT Press, Cambridge
Barrett HC, Kurzban R (2006) Modularity in cognition: framing the debate. Psychol Rev 113:628–647PubMedCrossRef
Basar E (1980) EEG-brain dynamics—relation between EEG and brain evoked potentials. Elsevier/North Holland Biomedical Press, The Netherlands
Basar E (1999) Brain function and oscillations: II. Integrative brain function. Neurophysiology and cognitive processes. Springer, HeidelbergCrossRef
Basar E (2004) Memory and brain dynamics: oscillations integrating attention, perception, learning and memory. CRC Press, FLCrossRef
Basar E (2005) Memory as a “whole brain work”. A large-scale model based on “oscillations in super-synergy”. Int J Psychophysiol 58:199–226PubMedCrossRef
Basar E (2011) Brain–body–mind in the nebulous cartesian system: a holistic approach. Springer, HeidelbergCrossRef
Bassett DS, Gazzaniga MS (2011) Understanding complexity in the human brain. Trends Cogn Sci 15:200–209PubMedCrossRef
Burbaud P, Camus O, Guehl D, Bioulac B, Caille J, Allard M (2000) Influence of cognitive strategies on the pattern of cortical activation during mental subtraction. A functional imaging study in human subjects. Neurosci Lett 287:76–80PubMedCrossRef
Buss DM (1992) Mate preference mechanisms: consequences for partner choice and intrasexual competition. In: Barkow JH, Cosmides L, Tooby J (eds) The adapted mind: evolutionary psychology and the generation of culture. Oxford University Press, Oxford, pp 249–266
Caramazza A (1986) On drawing inferences about the structure of normal cognitive systems from the analyses of patterns of impaired performance: the case for single-patient studies. Brain Cogn 5:41–66PubMedCrossRef
Casey BJ, Davidson M, Rosen B (2002) Functional magnetic resonance imaging: basic principles of and application to developmental science. Dev Sci 5:301–309CrossRef
Chochon F, Cohen L, van de Moortele PF, Dehaene S (1999) Differential contributions of the left and right inferior parietal lobules to number processing. J Cogn Neurosci 11:617–630PubMedCrossRef
Colliaux D, Molter C, Yamaguchi Y (2009) Working memory dynamics and spontaneous activity in a flip-flop oscillations network model with a Milner attractor. Cogn Neurodyn 3:141–151PubMedCrossRef
Corbetta M, Miezin FM, Schulman GL, Petersen SE (1993) A PET study of visuo-spatial attention. J Neurosci 13:1202–1226PubMed
Dehaene S (1996) The organization of brain activations in number comparison, event related potentials and the additive factors method. J Cogn Neurosci 81:47–68CrossRef
Dehaene S, Cohen L (1995) Towards an anatomical and functional model of number processing. Math Cogn 1:83–120
Dehaene S, Piazza M, Pinel P, Cohen L (2003) Three parietal circuits for number processing. Cogn Neuropsychol 20:487–506PubMedCrossRef
Dehaene S, Molko N, Cohen L, Wilson AJ (2004) Arithmetic and the brain. Curr Opin Neurobiol 14:218–224PubMedCrossRef
Diekamp B, Kalt T, Güntürkün O (2002) Working memory neurons in pigeons. J Neurosci 22:RC210PubMed
Duchaine B, Yovel B, Butterworth E, Nakayama K (2004) Elimination of all domain-general hypotheses of prosopagnosia in a single individual: evidence for an isolated deficit in 2nd order configural face processing. J Vis 4:214CrossRef
Fehr T (2008a) Complex mental processing and psychophysiology. Habilitation. University of Bremen, Germany
Fehr T (2008b) Magnetenzephalographie (MEG). In: Gauggel S, Herrmann M (eds) Handbuch der Neuro-und Biopsychologie. Hogrefe, Göttingen
Fehr T (2009) Chancen und Grenzen von Methoden der kognitiven Neurowissenschaften—Funktionelle Magnetresonanztomographie und Biosignalanalyse im Kontext der Entwicklungsneurophysiologie. Zeitschrift für Gestaltpädagogik 20:29–43
Fehr T (2011) Savants—die neuronale organisation komplexer mentaler Prozesse. In: Dresler M (ed) Kognitive Leistungen—Intelligenz und mentale Fähigkeiten im Spiegel der Neurowissenschaften. Spektrum Akademischer Verlag, Heidelberg, pp 107–124
Fehr T, Achtziger A, Hinrichs H, Herrmann M (2003) Interindividual differences in oscillatory brain activity in higher cognitive functions—methodological approaches in analyzing continuous MEG data. In: Reinvang I, Greenlee MW, Herrmann M (eds) The cognitive neuroscience of individual differences. Bis, Oldenburg, pp 101–120
Fehr T, Code C, Herrmann M (2007) Common brain regions underlying different arithmetic operations as revealed by conjunct fMRI–BOLD activation. Brain Res 1172:93–102PubMedCrossRef
Fehr T, Code C, Herrmann M (2008a) Auditory task presentation reveals predominantly right hemispheric fMRI activation patterns during mental calculation. Neurosci Lett 431:39–44PubMedCrossRef
Fehr T, Weber J, Willmes K, Herrmann M (2010) Neural correlates in exceptional mental arithmetic—about the neural architecture of prodigious skills. Neuropsychologia 48:1407–1416PubMedCrossRef
Fehr T, Wallace G, Erhard P, Herrmann M (2011) The functional neuroanatomy of expert calendar calculation: a matter of strategy? Neurocase 17:360–371PubMedCrossRef
Feredoes E, Postle BR (2007) Localisation of load sensitivity of working memory storage: quantitatively and qualitatively discrepant results yielded by single-subject and group averaged approaches to fMRI group analysis. Neuroimage 35:881–903PubMedCrossRef
Fodor J (1983) The modularity of mind. MIT Press, Cambridge
Fuster JM (2006) The cognit: a network model of cortical representation. Int J Psychophysiol 60:125–132PubMedCrossRef
Glabus MF, Horwitz B, Holt JL, Kohn PD, Gerton BK, Callicott JH, Meyer-Lindenberg A, Berman KF (2003) Interindividual differences in functional interactions among prefrontal, parietal and parahippocampal regions during working memory. Cereb Cortex 13:1352–1361PubMedCrossRef
Goldman-Rakic PS (1984) Modular organisation of prefrontal cortex. Trends Neurosci 7:419–424CrossRef
Goldman-Rakic PS (1988) Topography of cognition: parallel distributed networks in primate association cortex. Annu Rev Neurosci 11:137–156PubMedCrossRef
Güntekin B, Basar E (2010) A new interpretation of P300 responses upon analysis of coherences. Cogn Neurodyn 4:107–118PubMedCrossRef
Hartshorne MF (1995) Functional magnetic resonance imaging. In: Orrison WW, Lewine JD, Sanders JA, Hartshorne MF (eds) Functional brain imaging. Moshby, St. Louis, pp 187–212
Hauser MD, MacNeilage G, Ware M (1996) Numerical representations in primates. Proc Natl Acad Sci USA 93:1514–1517PubMedCrossRef
Hermer L, Spelke ES (1996) Modularity and development: the case of spatial reorientation. Cognition 61:195–232PubMedCrossRef
Houdé O, Tzourio-Mazoyer N (2003) Neural foundations of logical and mathematical cognition. Nat Rev Neurosci 4:507–514PubMedCrossRef
Houdé O, Zago L, Mellet E, Moutier S, Pineau A, Mazoyer B, Tzourio-Mazoyer N (2000) Shifting from the perceptual brain to the logical brain: the neural impact of cognitive inhibition training. J Cogn Neurosci 12:721–728PubMedCrossRef
Justus TC, Ivry RB (2001) The cognitive neuropsychology of the cerebellum. Int Rev Psychiatr 13:276–282CrossRef
Lee KH, Choi YY, Gray JR, Cho SH, Chae JH, Lee S, Kim K (2006) Neural correlates of superior intelligence: stronger recruitment of posterior parietal cortex. Neuroimage 29:578–586PubMedCrossRef
Leslie AM (1994) ToMM, ToBy, and agency: core architecture and domain specificity. In: Hirschfeld LA, Gelman SA (eds) Mapping the mind: domain specificity in cognition and culture. Cambridge University Press, Cambridge, pp 119–148CrossRef
Lewine JD, Orrison WW (1995) Magnetencephalography and magnetic source imaging. In: Orrison WW, Lewine JD, Sanders JA, Hartshorne MF (eds) Functional brain imaging. Moshby, St. Louis, pp 369–417
Logothetis NK, Pauls J, Augath M, Trinath T, Oeltermann A (2001) Neurophysiological investigation of the basis of the fMRI signal. Nature 412:150–157PubMedCrossRef
Mandler G, Shebo BJ (1982) Subitizing: an analysis of its component processes. J Exp Psychol Gen 111:1–22PubMedCrossRef
Marr D (1982) Vision. H. Freeman, New York
Miller MB, Donovan C-L, Bennett CM, Aminoff EM, Mayer RE (2012) Individual differences in cognitive style and strategy predict similarities in the patterns of brain activity between individuals. Neuroimage 59:83–93PubMedCrossRef
Mizraji E, Pomi A, Valle-Lisboa JC (2009) Dynamic searching in the brain. Cogn Neurodyn 3:401–414PubMedCrossRef
Nieder A (2005) Counting on neurons: the neurobiology of numerical competence. Nat Rev Neurosci 6:177–190PubMedCrossRef
Nieder A, Diester I, Tudusciuc O (2006) Temporal and spatial enumeration processes in the primate parietal cortex. Science 313:1431–1435PubMedCrossRef
Nobre AC, Sebestyen GN, Gitelman DR, Mesulam MM, Frackowiak RSJ, Frith CD (1997) Functional localisation of the system for visuospatial attention using positron emission tomography. Brain 120:515–533PubMedCrossRef
Nunez-Pena MI, Cortinas M, Escera C (2006) Problem size effect and processing strategies in mental arithmetic. NeuroReport 17:357–360PubMedCrossRef
Öhman A, Mineka S (2001) Fears, phobias, and preparedness: toward an evolved module of fear and fear learning. Psychol Rev 108:483–522PubMedCrossRef
Pinel P, Le Clec’ HG, van de Moortele PF, Naccache L, Le Bihan D, Dehaene S (1999) Event related fMRI analysis of the cerebral circuit for number comparison. NeuroReport 107:1473–1479CrossRef
Poldrack RA (2006) Can cognitive processes be inferred from neuroimaging data? Trends Cogn Sci 10:59–63PubMedCrossRef
Raichle ME, Fiez JA, Videen TO, MacLeod AM, Pardo JV, Fox PT, Petersen SE (1994) Practice-related changes in human brain functional anatomy during non-motor learning. Cereb Cortex 4:8–26PubMedCrossRef
Regenbogen C, Herrmann M, Fehr T (2010) The neural processing of voluntary completed, real and virtual violent and non-violent computer game scenarios displaying pre-defined actions in gamers and non-gamers. Soc Neurosci 5:221–240PubMedCrossRef
Reinvang I, Greenlee MW, Herrmann M (eds) (2003) The cognitive neuroscience of individual differences. Bis, Oldenburg
Rombouts SARB, Barkhof F, Witter MP, Machielsen WCM, Scheltens P (2001) Anterior medial temporal lobe activation during attempted retrieval of encoded visuospatial scenes: an event-related fMRI study. Neuroimage 14:67–76PubMedCrossRef
Rozin P, Haidt J, McCauley CR (2000) Disgust. In: Lewis M, Haviland J (eds) Handbook of emotions, 2nd edn. Guilford Press, New York, pp 637–653
Rüsseler J, Münte TF (2008) Elektroenzephalogramm (EEG) und ereigniskorrelierte Potenziale. In: Gauggel S, Herrmann M (eds) Handbuch der Neuro-und Biopsychologie. Hogrefe, Göttingen
Sakai K, Hikosaka O, Miyauchi S, Takino R, Saski Y, Putz B (1998) Transition of brain activation from frontal to parietal areas in visuomotor sequence learning. J Neurosci 18:1827–1840PubMed
Sanders JA (1995) Magnetic resonance imaging. In: Orrison WW, Lewine JD, Sanders JA, Hartshorne MF (eds) Functional brain imaging. Moshby, St. Louis, pp 145–186
Sanders JA, Orrison WW (1995) Functional magnetic resonance imaging. In: Orrison WW, Lewine JD, Sanders JA, Hartshorne MF (eds) Functional brain imaging. Moshby, St. Louis, pp 239–326
Scholl B, Leslie A (1999) Modularity, development and “theory of mind”. Mind Lang 14:131–153CrossRef
Siegler RS, Shrager J (1984) Strategy choices in addition: how do children know what to do? In: Sophian C (ed) Origins of cognitive skills. Erlbaum, Hillsdale, pp 229–293
Singer W (2009) Distributed processing and temporal codes in neuronal networks. Cogn Neurodyn 3:189–196PubMedCrossRef
Thirion B, Pinel P, Mériaux S, Roche A, Dehaene S, Poline J-B (2007) Analysis of a large fMRI cohort: statistical and methodological issues for group analyses. Neuroimage 35:105–120PubMedCrossRef
Tyler LK, Stamatakis EA, Bright P, Acres K, Abdallah S, Rodd JM, Moss HE (2004) Processing objects at different levels of specificity. J Cogn Neurosci 16:351–362PubMedCrossRef
Valera EM, Faraone SV, Biederman J, Poldrack RA, Seidman LJ (2005) Functional neuroanatomy of working memory in adults with attention-deficit/hyperactivity disorder. Biol Psychiatry 57:439–447PubMedCrossRef
Wang L (2007) Interactions between neural networks: a mechanism for tuning chaos and oscillations. Cogn Neurodyn 1:185–188PubMedCrossRef
Wynn K (2000) Findings of addition and subtraction in infants are robust and consistent. Child Dev 71:1535–1536PubMedCrossRef
Yener GG, Basar E (2010) Sensory evoked and event related oscillations in Alzheimer’s disease: a short review. Cogn Neurodyn 4:263–274PubMedCrossRef
Metadaten
Titel
A hybrid model for the neural representation of complex mental processing in the human brain
verfasst von
Thorsten Fehr
Publikationsdatum
01.04.2013
Verlag
Springer Netherlands
Erschienen in
Cognitive Neurodynamics / Ausgabe 2/2013
Print ISSN: 1871-4080
Elektronische ISSN: 1871-4099
DOI
https://doi.org/10.1007/s11571-012-9220-2

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