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Electrophysiological differences between upper and lower limb movements in the human subthalamic nucleus |
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| Institution: | 1. Department of Neurology, Bern University Hospital and University of Bern, Bern, Switzerland;2. MRC Brain Network Dynamics Unit at the University of Oxford, Oxford, United Kingdom;3. Nuffield Department of Clinical Neurosciences, University of Oxford, Oxford, United Kingdom;4. Department of Neurosurgery, Bern University Hospital and University of Bern, Bern, Switzerland;5. Department of Neurosurgery, John Radcliffe Hospital, Oxford University Hospitals NHS Foundation Trust, Oxford, United Kingdom |
| Abstract: | ObjectiveFunctional processes in the brain are segregated in both the spatial and spectral domain. Motivated by findings reported at the cortical level in healthy participants we test the hypothesis in the basal ganglia of Parkinson’s disease patients that lower frequency beta band activity relates to motor circuits associated with the upper limb and higher beta frequencies with lower limb movements.MethodsWe recorded local field potentials (LFPs) from the subthalamic nucleus using segmented “directional” DBS leads, during which patients performed repetitive upper and lower limb movements. Movement-related spectral changes in the beta and gamma frequency-ranges and their spatial distributions were compared between limbs.ResultsWe found that the beta desynchronization during leg movements is characterised by a strikingly greater involvement of higher beta frequencies (24–31 Hz), regardless of whether this was contralateral or ipsilateral to the limb moved. The spatial distribution of limb-specific movement-related changes was evident at higher gamma frequencies.ConclusionLimb processing in the basal ganglia is differentially organised in the spectral and spatial domain and can be captured by directional DBS leads.SignificanceThese findings may help to refine the use of the subthalamic LFPs as a control signal for adaptive DBS and neuroprosthetic devices. |
| Keywords: | Basal ganglia Somatotopy Motor network Local field potentials Directional deep brain stimulation PD"} {"#name":"keyword" "$":{"id":"k0035"} "$$":[{"#name":"text" "_":"Parkinson’s disease pdf"} {"#name":"keyword" "$":{"id":"k0045"} "$$":[{"#name":"text" "_":"probability density function LFP"} {"#name":"keyword" "$":{"id":"k0055"} "$$":[{"#name":"text" "_":"local field potentials STN"} {"#name":"keyword" "$":{"id":"k0065"} "$$":[{"#name":"text" "_":"subthalamic nucleus UPDRS"} {"#name":"keyword" "$":{"id":"k0075"} "$$":[{"#name":"text" "_":"Unified Parkinson’s Disease Rating Scale ERS"} {"#name":"keyword" "$":{"id":"k0085"} "$$":[{"#name":"text" "_":"event-related synchronisation ERD"} {"#name":"keyword" "$":{"id":"k0095"} "$$":[{"#name":"text" "_":"event-related desynchronization DBS"} {"#name":"keyword" "$":{"id":"k0105"} "$$":[{"#name":"text" "_":"deep brain stimulation MNI"} {"#name":"keyword" "$":{"id":"k0115"} "$$":[{"#name":"text" "_":"Montreal Neurological Institute AU"} {"#name":"keyword" "$":{"id":"k0125"} "$$":[{"#name":"text" "_":"arbitrary unit |
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