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dc.contributor.authorPriori, A
dc.contributor.authorTamma, F
dc.contributor.authorEgidi, M
dc.contributor.authorMarceglia, S
dc.contributor.authorFoffani, G
dc.contributor.authorBianchi, AM
dc.contributor.authorBaselli, G
dc.date.accessioned2022-02-18T09:12:13Z
dc.date.available2022-02-18T09:12:13Z
dc.date.issued2006
dc.identifier.citationMarceglia S., Foffani G., Bianchi A., Baselli G., Tamma F., Egidi M., Priori A., "Dopamine-dependent non-linear correlation between subthalamic rhythms in Parkinson's disease", JOURNAL OF PHYSIOLOGY-LONDON, cilt.571, sa.3, ss.579-591, 2006
dc.identifier.issn0022-3751
dc.identifier.othervv_1032021
dc.identifier.otherav_23bc125d-5e7a-4a80-881f-e708d736f14c
dc.identifier.urihttp://hdl.handle.net/20.500.12627/176729
dc.identifier.urihttps://doi.org/10.1113/jphysiol.2005.100271
dc.description.abstractThe basic information architecture in the basal ganglia circuit is under debate. Whereas anatomical studies quantify extensive convergence/divergence patterns in the circuit, suggesting an information sharing scheme, neurophysiological studies report an absence of linear correlation between single neurones in normal animals, suggesting a segregated parallel processing scheme. In 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated monkeys and in parkinsonian patients single neurones become linearly correlated, thus leading to a loss of segregation between neurones. Here we propose a possible integrative solution to this debate, by extending the concept of functional segregation from the cellular level to the network level. To this end, we recorded local field potentials (LFPs) from electrodes implanted for deep brain stimulation (DBS) in the subthalamic nucleus (STN) of parkinsonian patients. By applying bispectral analysis, we found that in the absence of dopamine stimulation STN LFP rhythms became non-linearly correlated, thus leading to a loss of segregation between rhythms. Non-linear correlation was particularly consistent between the low-beta rhythm (13-20 Hz) and the high-beta rhythm (20-35 Hz). Levodopa administration significantly decreased these non-linear correlations, therefore increasing segregation between rhythms. These results suggest that the extensive convergence/divergence in the basal ganglia circuit is physiologically necessary to sustain LFP rhythms distributed in large ensembles of neurones, but is not sufficient to induce correlated firing between neurone pairs. Conversely, loss of dopamine generates pathological linear correlation between neurone pairs, alters the patterns within LFP rhythms, and induces non-linear correlation between LFP rhythms operating at different frequencies. The pathophysiology of information processing in the human basal ganglia therefore involves not only activities of individual rhythms, but also interactions between rhythms.
dc.language.isoeng
dc.subjectHuman-Computer Interaction
dc.subjectPhysiology (medical)
dc.subjectPhysical Sciences
dc.subjectLife Sciences
dc.subjectHealth Sciences
dc.subjectBiochemistry (medical)
dc.subjectNEUROSCIENCES
dc.subjectSinirbilim ve Davranış
dc.subjectYaşam Bilimleri (LIFE)
dc.subjectFİZYOLOJİ
dc.subjectBiyoloji ve Biyokimya
dc.subjectTıp
dc.subjectSağlık Bilimleri
dc.subjectTemel Tıp Bilimleri
dc.subjectBiyokimya
dc.subjectFizyoloji
dc.subjectYaşam Bilimleri
dc.subjectTemel Bilimler
dc.subjectDevelopmental Neuroscience
dc.subjectPhysiology
dc.subjectCellular and Molecular Neuroscience
dc.subjectCognitive Neuroscience
dc.subjectGeneral Neuroscience
dc.subjectNeuroscience (miscellaneous)
dc.subjectSensory Systems
dc.titleDopamine-dependent non-linear correlation between subthalamic rhythms in Parkinson's disease
dc.typeMakale
dc.relation.journalJOURNAL OF PHYSIOLOGY-LONDON
dc.contributor.department, ,
dc.identifier.volume571
dc.identifier.issue3
dc.identifier.startpage579
dc.identifier.endpage591
dc.contributor.firstauthorID3373815


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