/LING

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Lista de candidatos sometidos a examen:
1) semantic memory (*)
(*) Términos presentes en el nuestro glosario de lingüística

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1) Candidate: semantic memory

Is in goldstandard

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1
paper corpusSignostxt546 - : Language impairments in Alzheimer’s disease (AD) primarily affect lexical and semantic levels, which significantly depend on the speaker’s memory state. Qualitative shifts in semantic memory are due to neurodegenerative processes underlying dementia and give rise to anomia, or the speaker’s inability to access and retrieve lexical units and their conceptual backgrounds . In this paper we aim at studying cognitive and semantic features of anomic deficit in AD and exploring the possibility to apply them in tests for early detection of dementia. For that purpose, we analyze the results from our experimental version of a classical test on semantic verbal fluency (SemVF) with non-pathological aged persons, persons with Mild Cognitive Impairment and persons with AD. The experimental version of the test introduces a division into four 15-minute intervals, in order to find out which processes of semantic access, either automatic or controlled, are impaired in different cognitive states of the

Evaluando al candidato semantic memory:

1) persons: 3
2) cognitive: 3 (*)

semantic memory
Lengua:
Frec: 33
Docs: 14
Nombre propio: / 33 = 0%
Coocurrencias con glosario: 1
Puntaje: 1.625 = (1 + (1+2.8073549220576) / (1+5.08746284125034)));
Candidato aceptado

Referencias bibliográficas encontradas sobre cada término

(Que existan referencias dedicadas a un término es también indicio de terminologicidad.)

semantic memory

: Tulving, E. 1972. Episodic and Semantic Memory. In: Tulving, E. & Donaldson, W. (Eds.), Organization of Memory. New York: Academic Press. : Arroyo-Anlló, E. V., Bellouard, S., Ingrand, P. & Gil, R. (2011). Effects of automatic/controlled access processes on semantic memory in Alzheimer’s disease. Journal of Alzheimer’s Disease, 25(3), 525-533. : Balota, David A. & Coane, Jennifer H. (2008). Semantic Memory. En J. H. Byrne, H. Eichenbaum, R. Menzel, H. L. Roediger III & D. Sweatt (eds.), Handbook of learning and memory: A comprehensive reference (pp. 512-531). Amsterdam: Elsevier. : Burianova, H., Mcintosh, A. & Grady, C. (2010). A common functional brain network for autobiographical, episodic, and semantic Memory retrieval. Neuroimage, 49, 865-874. : Collins, Allan M. & Quillian, M. Ross (1969). Retrieval time from semantic memory. Journal of Verbal Learning and Verbal Behavior, 8, 240-247. : Denhiére, G., Lemaire, B., Bellissens, C. & Jhean-Larose, S. (2007). A semantic space modeling children's semantic memory. En T. Landauer, D. McNamara, S. Dennis & W. Kintsch (Eds.) The handbook of Latent Semantic Analysis (pp. 143-167). Mahwah, NJ: Erlbaum. : Federmeier, K. D., McLennan, D. B., De Ochoa, E. & Kutas, M. 2002. "The impact of semantic memory organization and sentence context in spoken language processing by younger and older adults: An ERP study". En Psychophysiology, 39, pp. 133-146. : Grossman, M., Peelle, J. E., Smith, E. E., McMillan, C. T., Cook, P., Powers, J., et al. (2013). Category-specific semantic memory: Converging evidence from bold fMRI and Alzheimer’s disease. NeuroImage, 68, 263-274. : Hart, J. & Kraut, M. (2007). Neural basis of semantic memory. Cambridge: Cambridge University Press. : Hodges, J. R. & Paterson, K. (1995). Is semantic memory consistently impaired early in the course of Alzheimer’s disease? Neuroanatomical and diagnostic implications. Neuropsychologia, 33(4), 441-459. : Hodges, J. R., Salmon, D. P. & Butters, N. (1992). Semantic memory impairment in Alzheimer’s disease: Failure of access or degraded knowledge? Neuropsychologia, 30, 301-314. : Jones, M. N., Willits, J. & Dennis, S. (2015). Models of semantic memory. Oxford handbook of Mathematical and Computational Psychology (pp. 232-254). Oxford: Oxford University Press. : Kounios, J. & Holcomb, P. J. (1992). Structure and process in semantic memory: Evidence from event-related brain potentials and reaction times. Journal of experimental psychology: General, 121(4), 459. : Kutas, M., & Federmeier, K. D. (2000). Electrophysiology Reveals Semantic Memory Use in Language Comprehension. Trends in Cognitive Sciences, 4(12), 463-470. : Lehrner, J., Coutinho, G., Mattos, P., Moser, D., Pflüger, M., Gleiss, A., et al. (2017). Semantic memory and depressive symptoms in patients with subjective cognitive decline, mild cognitive impairment, and Alzheimer's disease. International Psychogeriatrics, 29(7), 1123-1135. : McRae, K. & Jones, M. N. (2013). Semantic memory. En D. Reisberg (Ed.), The Oxford Handbook of Cognitive Psychology (pp. 206-219). Oxford, UK: Ofxord University Press. : Nebes, R. D. (1992). Semantic memory dysfunction in Alzheimer’s disease: Disruption of semantic knowledge or information-processing limitation? En L. R. Squire & N. Butters (Eds.), Neuropsychology of memory (pp. 233-240). Nueva York: The Guilford Press. : Quillian, M. Ross. (1968). Semantic memory, in M. Minsky (ed.), Semantic Information Processing, 227-270. : Reilly, J., Peelle, J., Antonucci, S. & Grossman, M. (2011). Anomia as a marker of distinct semantic memory impairments in Alzheimer’s disease and semantic dementia. Neuropsychology, 25(4), 413-426. : Simoes Loureiro, I. & Lefebvre, L. (2016). Retrogenesis of semantic knowledge: Comparative approach of acquisition and deterioration of concepts in semantic memory. Neuropsychology, 30(7), 853-859. : Tulving, E. (1972). Episodic and semantic memory. En E. Tulving & W. Donaldson (Eds.), Organization of Memory (pp. 381-403). Nueva York: Academic Press. : Venneri, A., Mitolo, M. & De Marco, M. (2016). Paradigm shift: Semantic memory decline as a biomarker of preclinical Alzheimer's disease. Biomarkers in Medicine, 10(1), 5-8. : Woodard, J., Seidenberg, M., Nielson, K. A., Antuono, P., Guidotti, L., Durgerian, S., et al. (2009). Semantic memory activation in amnestic mild cognitive impairment.Brain, 32(8), 2068-2078.