M. Muthuraman scite author profile

. Conflicting results on the existence of tremor-related cortical activity in essential tremor (ET) have raised questions on the role of the cortex in tremor generation. Here we attempt to address these issues. We recorded 64 channel surface EEGs and EMGs from forearm muscles in 15 patients with definite ET. EEG and EMG power spectra, relative power of the rhythmic EMG activity, relative EEG power at the tremor frequency, and EEG-EMG and EEG-EEG coherence were calculated and their dynamics over time explored. Corticomuscular delay was studied using a new method for narrow-band coherent signals. Corticomuscular coherence in the contralateral central region at the tremor frequency was present in all patients in recordings with a relative tremor EMG power exceeding a certain level. However, the coherence was lost intermittently even with tremors far above this level. Physiological 15-to 30-Hz coherence was found consistently in 11 patients with significantly weaker EMG activity in this frequency range. A more frontal (mesial) hot spot was also intermittently coupled with the tremor and the central hot spot in five patients. Corticomuscular delays were compatible with transmission in fast corticospinal pathways and feedback of the tremor signal. Thus the tremor rhythm is intermittently relayed only in different cortical motor areas. We hypothesize that tremor oscillations build up in different subcortical and subcortico-cortical circuits only temporarily entraining each other.

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Oscillating central motor networks in pathological tremors and voluntary movements. What makes the difference?

Muthuraman

et al. 2012

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Local field potential activity dynamics in response to deep brain stimulation of the subthalamic nucleus in Parkinson's disease

Wiest

Tinkhauser

Pogosyan

et al. 2020

Neurobiology of Disease

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Local field potentials (LFPs) may afford insight into the mechanisms of action of deep brain stimulation (DBS) and potential feedback signals for adaptive DBS. In Parkinson's disease (PD) DBS of the subthalamic nucleus (STN) suppresses spontaneous activity in the beta band and drives evoked resonant neural activity (ERNA). Here, we investigate how STN LFP activities change over time following the onset and offset of DBS. To this end we recorded LFPs from the STN in 14 PD patients during long (mean: 181.2 s) and short (14.2 s) blocks of continuous stimulation at 130 Hz. LFP activities were evaluated in the temporal and spectral domains. During long stimulation blocks, the frequency and amplitude of the ERNA decreased before reaching a steady state after ~70 s. Maximal ERNA amplitudes diminished over repeated stimulation blocks. Upon DBS cessation, the ERNA was revealed as an under-damped oscillation, and was more marked and lasted longer after short duration stimulation blocks. In contrast, activity in the beta band suppressed within 0.5 s of continuous DBS onset and drifted less over time. Spontaneous activity was also suppressed in the low gamma band, suggesting that the effects of high frequency stimulation on spontaneous oscillations may not be selective for pathological beta activity. High frequency oscillations were present in only six STN recordings before stimulation onset and their frequency was depressed by stimulation. The different dynamics of the ERNA and beta activity with stimulation imply different DBS mechanisms and may impact how these activities may be used in adaptive feedback.

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Effect of high‐frequency subthalamic neurostimulation on gait and freezing of gait in Parkinson's disease: a systematic review and meta‐analysis

Schlenstedt

Shalash

Muthuraman

et al. 2016

Euro J of Neurology

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The aim of this meta‐analysis was to summarize the short‐ and long‐term effects of bilateral deep brain stimulation of the subthalamic nucleus (STN‐DBS) on gait and freezing of gait (FOG) in Parkinson's disease and to detect predictors of post‐stimulation outcome. A comprehensive review of the literature was conducted up to October 2015 using Medline Ovid databases for studies analyzing the effect of bilateral STN‐DBS on FOG and/or gait. Sixteen studies with available data for the gait item (no. 29) of the Unified Parkinson's Disease Rating Scale (UPDRS) and six studies with the FOG item (no. 14) were included. Data were summarized for the following follow‐up periods: 6–15, 24–48 and >48 months. For the medication (Med)‐Off/stimulation(Stim)‐On condition compared with baseline Med‐Off, STN‐DBS significantly improved gait on average from 2.43 to 0.96, 2.53 to 1.31 and 2.56 to 1.40 points at 6–15, 24–48 and >48 months, respectively (P < 0.05). Pre‐operative levodopa responsiveness of UPDRS‐III and Med‐Off severity of gait were the predictors of this beneficial effect. STN‐DBS significantly improved FOG for the Med‐Off/Stim‐On condition compared with baseline on average from 2.26 to 0.82, 2.43 to 1.13 and 2.48 to 1.38 points at 6–15, 24–48 and >48 months, respectively (P < 0.05). There was no significant effect in the Med‐On/Stim‐On condition. This meta‐analysis showed a robust improvement of gait and FOG by STN‐DBS for more than 4 years in the Med‐Off/Stim‐On condition. No beneficial effect was found for the On state of medication. Pre‐operative levodopa responsiveness of global motor performance (UPDRS‐III) is the strongest predictor of the effect of deep brain stimulation on gait.

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M. Muthuraman

Cortical Involvement in the Generation of Essential Tremor

Oscillating central motor networks in pathological tremors and voluntary movements. What makes the difference?

Local field potential activity dynamics in response to deep brain stimulation of the subthalamic nucleus in Parkinson's disease

Effect of high‐frequency subthalamic neurostimulation on gait and freezing of gait in Parkinson's disease: a systematic review and meta‐analysis

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