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Neural synchronization deficits linked to cortical hyper-excitability and auditory hypersensitivity in fragile X syndrome / L. E. ETHRIDGE in Molecular Autism, 8 (2017)
[article]
Titre : Neural synchronization deficits linked to cortical hyper-excitability and auditory hypersensitivity in fragile X syndrome Type de document : Texte imprimé et/ou numérique Auteurs : L. E. ETHRIDGE, Auteur ; S. P. WHITE, Auteur ; M. W. MOSCONI, Auteur ; J. WANG, Auteur ; Ernest V. PEDAPATI, Auteur ; C. A. ERICKSON, Auteur ; M. J. BYERLY, Auteur ; J. A. SWEENEY, Auteur Article en page(s) : 22p. Langues : Anglais (eng) Mots-clés : Chirp Eeg Fragile X syndrome Gamma Sensory Index. décimale : PER Périodiques Résumé : BACKGROUND: Studies in the fmr1 KO mouse demonstrate hyper-excitability and increased high-frequency neuronal activity in sensory cortex. These abnormalities may contribute to prominent and distressing sensory hypersensitivities in patients with fragile X syndrome (FXS). The current study investigated functional properties of auditory cortex using a sensory entrainment task in FXS. METHODS: EEG recordings were obtained from 17 adolescents and adults with FXS and 17 age- and sex-matched healthy controls. Participants heard an auditory chirp stimulus generated using a 1000-Hz tone that was amplitude modulated by a sinusoid linearly increasing in frequency from 0-100 Hz over 2 s. RESULTS: Single trial time-frequency analyses revealed decreased gamma band phase-locking to the chirp stimulus in FXS, which was strongly coupled with broadband increases in gamma power. Abnormalities in gamma phase-locking and power were also associated with theta-gamma amplitude-amplitude coupling during the pre-stimulus period and with parent reports of heightened sensory sensitivities and social communication deficits. CONCLUSIONS: This represents the first demonstration of neural entrainment alterations in FXS patients and suggests that fast-spiking interneurons regulating synchronous high-frequency neural activity have reduced functionality. This reduced ability to synchronize high-frequency neural activity was related to the total power of background gamma band activity. These observations extend findings from fmr1 KO models of FXS, characterize a core pathophysiological aspect of FXS, and may provide a translational biomarker strategy for evaluating promising therapeutics. En ligne : http://dx.doi.org/10.1186/s13229-017-0140-1 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=330
in Molecular Autism > 8 (2017) . - 22p.[article] Neural synchronization deficits linked to cortical hyper-excitability and auditory hypersensitivity in fragile X syndrome [Texte imprimé et/ou numérique] / L. E. ETHRIDGE, Auteur ; S. P. WHITE, Auteur ; M. W. MOSCONI, Auteur ; J. WANG, Auteur ; Ernest V. PEDAPATI, Auteur ; C. A. ERICKSON, Auteur ; M. J. BYERLY, Auteur ; J. A. SWEENEY, Auteur . - 22p.
Langues : Anglais (eng)
in Molecular Autism > 8 (2017) . - 22p.
Mots-clés : Chirp Eeg Fragile X syndrome Gamma Sensory Index. décimale : PER Périodiques Résumé : BACKGROUND: Studies in the fmr1 KO mouse demonstrate hyper-excitability and increased high-frequency neuronal activity in sensory cortex. These abnormalities may contribute to prominent and distressing sensory hypersensitivities in patients with fragile X syndrome (FXS). The current study investigated functional properties of auditory cortex using a sensory entrainment task in FXS. METHODS: EEG recordings were obtained from 17 adolescents and adults with FXS and 17 age- and sex-matched healthy controls. Participants heard an auditory chirp stimulus generated using a 1000-Hz tone that was amplitude modulated by a sinusoid linearly increasing in frequency from 0-100 Hz over 2 s. RESULTS: Single trial time-frequency analyses revealed decreased gamma band phase-locking to the chirp stimulus in FXS, which was strongly coupled with broadband increases in gamma power. Abnormalities in gamma phase-locking and power were also associated with theta-gamma amplitude-amplitude coupling during the pre-stimulus period and with parent reports of heightened sensory sensitivities and social communication deficits. CONCLUSIONS: This represents the first demonstration of neural entrainment alterations in FXS patients and suggests that fast-spiking interneurons regulating synchronous high-frequency neural activity have reduced functionality. This reduced ability to synchronize high-frequency neural activity was related to the total power of background gamma band activity. These observations extend findings from fmr1 KO models of FXS, characterize a core pathophysiological aspect of FXS, and may provide a translational biomarker strategy for evaluating promising therapeutics. En ligne : http://dx.doi.org/10.1186/s13229-017-0140-1 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=330