Modeling the meaning of words: Neural correlates of abstract and concrete noun processing

• Autorzy: Martensson F. , Roll M. , Apt P. , Horne M.
• Języki publikacji: EN

Abstrakty

EN

We present a model relating analysis of abstract and concrete word meaning in terms of semantic features and contextual frames within a general framework of neurocognitive information processing. The approach taken here assumes concrete noun meanings to be intimately related to sensory feature constellations. These features are processed by posterior sensory regions of the brain, e.g. the occipital lobe, which handles visual information. The interpretation of abstract nouns, however, is likely to be more dependent on semantic frames and linguistic context. A greater involvement of more anteriorly located, perisylvian brain areas has previously been found for the processing of abstract words. In the present study, a word association test was carried out in order to compare semantic processing in healthy subjects («=12) with subjects with aphasia due to perisylvian lesions (n=3) and occipital lesions (n=1). The word associations were coded into different categories depending on their semantic content. A double dissociation was found, where, compared to the controls, the perisylvian aphasic subjects had problems associating to abstract nouns and produced fewer semantic frame- based associations, whereas the occipital aphasic subject showed disturbances in concrete noun processing and made fewer semantic feature based associations.

• Wydawca: -
• Czasopismo: Acta Neurobiologiae Experimentalis
• Rocznik: 2011
• Tom: 71
• Numer: 4
• Opis fizyczny: p.455-478,fig.,ref.

Twórcy

autor

Martensson F.

• Department of Linguistics and Phonetics, Centre for Languages and Literature, Lund University, Lund, Sweden

autor

Roll M.

• Department of Linguistics and Phonetics, Centre for Languages and Literature, Lund University, Lund, Sweden

autor

Apt P.

• Department of Neurology, Skane University Hospital, Malmo, Sweden

autor

Horne M.

• Department of Linguistics and Phonetics, Centre for Languages and Literature, Lund University, Lund, Sweden

Bibliografia

• Apt P (1997) Pia Apt's Aphasia Assessment (PAPAP) (in Swedish). Psykologiforlaget, Stockholm, SE. Apt P (1999) Swedish Naming Test (SBP) (in Swedish). Skane University Hospital, Malmo, SE.
• Binder JR, Westbury CF, Mckiernan KA, Possing ET, Medler DA (2005) Distinct brain systems for processing concrete and abstract concepts. J Cogn Neurosci 17: 905-917.
• Coltheart M (1981) The MRC psycholinguistic database. Q J Exp Psychol 33A: 497-505.
• Coslett HB, Saffran EM (1992) Optic aphasia and the right hemisphere: A replication and extension. Brain Lang 43: 148-161.
• Crutch SJ, Warrington EK (2005) Abstract and concrete concepts have structurally different representational frameworks. Brain 128: 615-627.
• Crutch SJ, Warrington EK (2008) Contrasting patterns of comprehension for superordinate, basic level, and subor­dinate names in semantic dementia and aphasic stroke patients. Cogn Neuropsychol 25: 582-600.
• De Renzi E, Faglioni P (1978) Normative data and screening power of a shortened version of the token Test. Cortex 14: 41-49.
• Ejerhed E, Kallgren G, Wennstedt O, Astrom M (1992) The Linguistic Annotation System of The Stockholm-Umea Corpus Project. Tech Rep 33, Department of General Linguistics, Umea University, Umea, Sweden.
• Evans V (2009) How Words Mean. Oxford University Press, Oxford, UK.
• Fillmore C (1982) Frame semantics. In: Linguistics in the Morning Calm. Hanshin Publishing Co., Seoul, KR. p. 111-137.
• Fillmore C (1985) Frames and the semantics of understand­ing. Quaderni di Semantica 6: 222-254.
• Forde EME, Francis D, Riddoch MJ, Rumiati RI, Humphreys GW (1997) On the links between visual knowledge and naming: a single case study of a patient with a category- specific impairment for living things. Cogn Neuropsychol 14: 403-458.
• Fortescue M (2010) A neural network approach to composi- tionality and co-compositionality. In: Words and Their Meaning: A Deep Delve From Surface Distribution into Underlying Neural Representation (Horne M, Roll M, Eds.). The Mental Lexicon 5: 205-230.
• Fuster J (2009) Cortex and memory: Emergence of a new paradigm. J Cogn Neurosci 21: 2047-2072.
• Gainotti G (2004) A metanalysis of impaired and spared naming for different categories of knowledge in patients with a visuo-verbal disconnection. Neuropsychologia 42: 299-319.
• Geeraerts D (2010) Theories of Lexical Semantics. Oxford University Press, Oxford, UK.
• Girkin CA, Miller NR (2001) Central disorders of vision in humans. Surv Ophthalmol 45: 379-405.
• Hagoort P (1998) The shadows of lexical meaning in patients with semantic impairments. In: Handbook of Neurolinguistics (Stemmer B, Whitaker H. Eds.). Academic Press, San Diego, CA, p. 235-248.
• Humphreys GW, Riddoch MJ, Price CJ (1997) Top-down processes in object identification: evidence from experi­mental psychology, neuropsychology and functional anatomy. Philos Trans R Soc Lond B352: 1275-1282.
• Jeffries E, Lambon Ralph MA (2006) Semantic impairment in stroke aphasia versus semantic dementia: a case-series comparison. Brain 129: 2131-2147.
• Lakoff G (1987) Women, Fire and Dangerous Things: What Categories Reveal about the Mind. University of Chicago Press, Chicago IL.
• Kaplan E, Goodglass H, Weintraub S (1983) Boston Naming Test. Lea & Febiger, Philadelphia, PA.
• Levinson S (2003) Space in Language and Cognition. Cambridge University Press, Cambridge, UK.
• Lexin (accessed December 2007) Online lexicon. Swedish Language Council [http://lexin.nada.kth.se/sve-eng.html]
• Luzzatti C (2003) Optic aphasia and pure alexia: contribu­tion of callosal disconnection syndromes to the study of lexical and semantic representation in the right hemi­sphere. In: The Parallel Brain: The Cognitive Neuroscience of the Corpus Callosum (Zaidel E, Iacoboni M, Eds). MIT Press, Cambridge, MA, p. 479-496.
• Martin A, Wiggs CL, Ungerleider LG, Haxby JV (1996) Neural correlates of category-specific knowledge. Nature 379: 649-652.
• Martin A, Weisberg, J (2003) Neural foundations for under­standing social and mechanical concepts. Cogn Neuropsychol 20: 575-587.
• Medical Research Council Psycholinguistic Database (accessed December 2007) [http://www.psych.rl.ac.uk/ MRC_Psych_Db.html]
• Mincic AM (2010) Neural substrate of the cognitive and emotional interference processing in healthy adolescents. Acta Neurobiol Exp (Wars) 70: 406-422.
• Noppeney U, Price CJ (2004) Retrieval of abstract seman­tics. Neuroimage 22: 164-170.
• Paivio A (2007) Mind and its Evolution: A Dual Coding Theoretical Approach. Lawrence Erlbaum Associates, Mahwah, NJ.
• Paivio A (2010) Dual coding theory and the mental lexi­con. In: Words and their Meaning: A Deep Delve from Surface Distribution into Underlying Neural Representation (Horne M, Roll M, Eds). The Mental Lexicon 5: 205-230.
• Patterson K, Nestor PJ, Rogers TT (2007) Where do you know what you know? The representation of knowledge in the human brain. Nat Rev Neurosci 8: 976-987.
• Pulvermüller F (1999) Words in the brain's language. Behav Brain Sci 22: 253-336.
• Rosch E (1978) Principles of categorization. In: Cognition and Categorization (Rosch E, Lloyd BB, Eds). Lawrence Erlbaum Associates, Hillsdale, NJ, p. 373-392.
• Rosch E, Mervis C, Gray W, Johnson D, Boyes-Braem P (1976) Basic objects in natural categories. Cogn Psychol 8: 382-439.
• Sabsevitz DS, Medler DA, Seidenberg M, Binder JR (2005) Modulation of the semantic system by word imageability. Neuroimage 27: 188-200.
• Schank RC, Abelson, RP (1977) Scripts, Plans, Goals and Understanding: An Inquiry into Human Knowledge Structures. Lawrence Erlbaum Associates, Hillsdale, NJ.
• Scheler GS (1999) Neuromodulation of word meaning selection. AAAI'99 Workshop on Computation with Neural Systems, Orlando, Florida, July 1999, p. 40-47.
• Tyler LK, Moss HE, Jennings F (1995) Abstract word defi­cits in aphasia: Evidence from semantic priming. Neuropsychology 3: 354-363.
• Ungerer F, Schmid HJ (2006) An Introduction to Cognitive Linguistics (2nd ed.). Pearson ESL, Harlow, UK.
• Weinreich U (1966) Explorations in semantic theory. In: Current Trends in Linguistics (Sebeok TA, Ed.). Mouton, The Hague, NL, p. 395-477.
• Wierzbicka A (1992) The search for universal semantic primitives. In: Thirty Years of Linguistic Evolution (Pütz M, Ed).

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