Different Functional Loops between Cerebral Cortex and the Subthalmic Area in Parkinson's Disease

doi:10.1093/cercor/bhi084

Cerebral Cortex Advance Access originally published online on April 13, 2005
Cerebral Cortex 2006 16(1):64-75; doi:10.1093/cercor/bhi084

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Different Functional Loops between Cerebral Cortex and the Subthalmic Area in Parkinson's Disease

Noa Fogelson¹, David Williams¹, Marina Tijssen², Gerard van Bruggen², Hans Speelman² and Peter Brown¹

¹ Sobell Department of Motor Neuroscience and Movement Disorders, Institute of Neurology, London, UK and ² Department of Neurology, Academic Medical Center, Amsterdam, The Netherlands

Address correspondence to Prof. P. Brown, Sobell Department of Motor Neuroscience and Movement Disorders, Institute of Neurology, Queen Square, London WCIN 3BG, UK. Email P.brown{at}ion.ucl.ac.uk

We investigate the extent to which functional circuits couplingcortical and subthalamic activity are multiple and segregatedby frequency in untreated Parkinson's disease (PD). To thisend, we recorded EEG and local field potentials (LFPs) frommacroelectrodes inserted into the subthalamic nucleus area (SA)in nine awake patients following functional neurosurgery forPD. Patients were studied after overnight withdrawal of medication.Coherence between EEG and SA LFPs was apparent in the theta(3–7 Hz), alpha (8–13 Hz), lower beta (14–20Hz) and upper beta (21–32 Hz) bands, although activityin the alpha and upper beta bands dominated. Theta coherencepredominantly involved mesial and lateral areas, alpha and lowerbeta coherence the mesial and ipsilateral motor areas, and upperbeta coherence the midline cortex. SA LFPs led EEG in the thetaband. In contrast, EEG led the depth LFP in the lower and upperbeta bands. SA LFP activity in the alpha band could either leador lag EEG. Thus there are several functional sub-loops betweenthe subthalamic area and cerebral cortical motor regions, distinguishedby their frequency, cortical topography and temporal relationships.Tuning to distinct frequencies may provide a means of markingand segregating related processing, over and above any anatomicalsegregation of processing streams.

Key Words: EEG • oscillations • Parkinson's disease • subthalamic nucleus • synchronization

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