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dc.contributor.authorScheffzük, Claudia-
dc.contributor.authorKukushka, Valeriy I.-
dc.contributor.authorVyssotski, Alexei L.-
dc.contributor.authorDraguhn, Andreas-
dc.contributor.authorTort, Adriano Bretanha Lopes-
dc.contributor.authorBranka, Jurij-
dc.identifier.citationSCHEFFZUK, C. ; KUKUSHKA, V. ; VYSSOTSKI, A. L. ; DRAGUHN, A. ; TORT, A. B. L. ; BRANKACK, J. ( 2013)pt_BR
dc.descriptionSCHEFFZUK, C. , KUKUSHKA, V. , VYSSOTSKI, A. L. , DRAGUHN, A. , TORT, A. B. L. , BRANKACK, J. . Global slowing of network oscillations in mouse neocortex by diazepam. Neuropharmacology , v. 65, p. 123-133, 2013.pt_BR
dc.description.abstractBenzodiazepines have a broad spectrum of clinical applications including sedation, anti-anxiety, and anticonvulsive therapy. At the cellular level, benzodiazepines are allosteric modulators of GABAA receptors; they increase the efficacy of inhibition in neuronal networks by prolonging the duration of inhibitory postsynaptic potentials. This mechanism of action predicts that benzodiazepines reduce the frequency of inhibition-driven network oscillations, consistent with observations from human and animal EEG. However, most of existing data are restricted to frequency bands beloww30 Hz. Recent data suggest that faster cortical network rhythms are critically involved in several behavioral and cognitive tasks. We therefore analyzed diazepam effects on a large range of cortical network oscillations in freely moving mice, including theta (4e12 Hz), gamma (40e100 Hz) and fast gamma (120e160 Hz) oscillations. We also investigated diazepam effects over the coupling between theta phase and the amplitude fast oscillations. We report that diazepam causes a global slowing of oscillatory activity in all frequency domains. Oscillation power was changed differently for each frequency domain, with characteristic differences between active wakefulness, slow-wave sleep and REM sleep. Cross-frequency coupling strength, in contrast, was mostly unaffected by diazepam. Such state- and frequency-dependent actions of benzodiazepines on cortical network oscillations may be relevant for their specific cognitive effects. They also underline the strong interaction between local network oscillations and global brain statespt_BR
dc.rightsAcesso Abertopt_BR
dc.subjectIn vivo electrophysiologypt_BR
dc.subjectLocal field potentialpt_BR
dc.subjectNeuronal oscillationspt_BR
dc.subjectBrain rhythmspt_BR
dc.subjectSleep-wake cyclept_BR
dc.subjectCross-frequency couplingpt_BR
dc.titleGlobal slowing of network oscillations in mouse neocortex by diazepampt_BR
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