Análise da coerência do espectro do eletrencefalograma

Autores

  • Renato Anghinah Doutor em neurologia pela FMUSP, médico do grupo de neurologia cognitiva e do comportamento da FMUSP, responsável pelo setor de Eletroencefalografia Clínica do Lab. de Neurociências (LIM27) IPq FMUSP

DOI:

https://doi.org/10.34024/rnc.2005.v13.8845

Palavras-chave:

Eletrencefalograma quantitativo, Análise de coerência, Demência

Resumo

Apresentamos uma revisão sobre a análise da coerência espectral do EEG, abordando desde a compreensão de sua definição até a aplicabilidade em pesquisa e as perspectivas de utilização futura na prática clínica, com enfoque especial para distúrbios cognitivos e os quadros demenciais.

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Referências

Orrison WW, Lewine JD, Sanders JA, Hartshorne MF. Functional brain imaging. St Louis: Mosby 1995:327-368.

Lesser RP. Guidelines Committees of American Electroencephalographic Society. J Clin Neurophysiol 1994;11: 09-11.

Gotman J, Gloor P, Ray WF. A quantitative comparison of traditional reading of the EEG and interpretation of computer-extracted features in patients with supra tentorial brain lesions. Electroencephalogr Clin Neurophysiol 1975; 38:623-639.

Gotman J. The use of computers in analysis and dysplay of EEG and evoked potencials. In: DD Daly, AT Pedley (ed). Current Practice of Clinical Electroencephalography, 2nd ed. New York: Raven Press 1990; 51-84.

Wong PKH. Introduction to brain topography. New York: Plenum Press 1991;150-162.

Epstein CM. Digital EEG: Choosing the right equipment for your lab. In: 30th Annual course in clinical EEG and Electrophisiology of American EEG Society. Washington, DC American EEG Society/Executive office-PO BOX 30 Bloomfield, CT 06002-USA, 1995.

Luccas FJC, Braga NIO, Fonseca LC, Frochtengarten ML. Recomendações para o registro e interpretação do mapeamento topográfico do eletrencefalograma (EEG) e potenciais evocados sensoriais (PES) parte I: aspectos gerais. Braz J Epilepsy Clin Neurophysiol 1996;2:175-182.

Nuwer MR. Quantitative EEG analysis in clinical settings. Brain Topogr 1996;8:201-208.

Nuwer MR, Comi G, Emerson R, et al. IFCN standards for digital recording of clinical EEG. Electroencephalogr Clin Neurophysiol 1998;106:259-261.

Kuks JBM, Vos JE, O‘Brien MJ. Coherence patterns of the infant sleep EEG in absence of the corpus callosum. Electroencephalogr clin neurophysiol 1987;66:8-14.

Nielsen T, Montplaisir J, Lassonde M. Decreased Interhemisferic EEG Coherene during sleep in agenesis of the Corpus Calosum. Eur Neurol 1993;33:173-176.

Tucker DM, Roth DL, Bait TB. Funcional conections among cortical regions: Topography of EEG coherence. Electroenceph Clin Neurophysiol 1986;63:242-250.

Locatelli T, M Cursi, D Liberati, M Franceschi, G Comi. EEG coherence in Alzheimer’s disease. Electroencephalogr Clin Neurophysiol 1998;106:229-237.

Harmony T, Marosi E, Fernandez T, Bernal J, Rodriguez M, Reyes A. EEG coherences in patients with brain lesions. Intern J Neuroscience 1994;74:203-226.

Lehmann D. Multichannel topography of human alpha EEG fields. Electroenceph Clin Neurophysiol. 1971, 31: 439-449.

Duffy FH, Burchfiel JL, Lombroso CT. Brain electrical activity mapping (BEAM): A method for extending the clinical utility of EEG and evoked potential data. Ann Neurol 1979;5:309-321.

Duffy FH, Iyer VG, Surwillo WW. Clinical electroencephalography and topographic brain mapping. New York: Springer Verlag 1989;99-132.

Leuchter AF, Spar JE, Walter DO, Weiner H. Electroen-cephalographic spectra and coherence in the diagnosis of Alzheimer’s-type and multi-infarct dementia. Arch Gen Psychiatr 1987;44:993-998.

Besthorn C, Förstl H, Geiger-Kabisch C, Sattel H, Gasser T. EEG coherence in Alzheimer disease. Electroencephalogr Clin Neurophysiol 1994;90:242-245.

Anderer P, Saletu B, Klöppel B, Semlitsch HV, Werner H. Discrimination between demented patients and normals based on topographic EEGslow wave activity: comparison between z statistics, discriminant analysis and artificial neural network classifiers. Electroencephalogr Clin Neurophysiol 1994;91:108-117.

Rosen I. EEG as diagnostic tool in dementia. Dement Geriatr Cogn Disord 1997;8:110-116.

Stevens A, Kircher T. Cognitive decline unlike normal aging is associated with alterations of EEG temporo-spatial characteristics. Eur Arch Psychiatr Clin Neurosci 1998;248:259-292.

Wada Y, Nanbu Y, Koshino Y, Yamaguchi N, Hashimoto T. Reduced interhemispheric EEG coherence in Alzheimer disease: analysis during rest and photic stimulation.Alzheimer. Dis Assoc Disord 1998;12:175-181.

Anghinah R, Kanda PAM, Jorge MS, LimaEEP, Pascuzzi L, Mello ACP. Estudo da Coerência do eletroencefalograma para a banda de frequência alfa em indivíduos adultos normais e com provável demência do tipo Alzheimer. Arq Neuropsiquiatr 2000;58(2A):272-275.

Leocani L, Comi G. EEG coherence in pathological conditions. J Clin Neurophysiol 1999;16(6):548-555.

Dunkin JJ, Osato S, Leuchter AF. Relationships between EEG coherence and neuropsychological tests in dementia. Clin Electroencephalogr 1995;26:47-59.

Sarnthein J, Petsche H, Rappelsberger P, Shaw GL, Stein A. Synchronization between prefrontal and posterior association cortex during human working memory. Neurobiol 1998;95:7092-7096.

Sloan EP, Fenton GW, Kennedy NS, Maclennan JM. Neurophysiology and spect cerebral blood fow patterns in dementia. Electroencephalogr Clin Neurophysiol 1994;91:163-170.

Szelies B, Mielke R, Herholz K, Heiss WD. QEEG compared to FDG PET for classification of vascular and degenerative dementia. Electroencephalogr Clin Neurophysiol 1994;91(2):131-139.

Szelies B, Mielke R, Kessler J, Heiss WD. EEG power changes are related to regional cerebral glucose metabolism in vascular dementia. J Neurol Scienc 1999;110 (4):615-620.

Anghinah R, Caramelli P, Takahashi DY, Nitrini R, Sameshima K. EEG alpha band coherence analysis in healthy adults: preliminary results. Arq Neuropsiquiatr 2005;63(1):83-86

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Publicado

2005-03-31

Como Citar

Anghinah, R. (2005). Análise da coerência do espectro do eletrencefalograma. Revista Neurociências, 13(1), 50–53. https://doi.org/10.34024/rnc.2005.v13.8845

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Artigos de Revisão
Recebido: 2019-02-06
Publicado: 2005-03-31

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