| scholarly article | Q13442814 |
| P50 | author | Peter Brown | Q38327243 |
| Huiling Tan | Q43167852 | ||
| David J. Pedrosa | Q54072512 | ||
| P2093 | author name string | Alek Pogosyan | |
| Alexander L Green | |||
| Lars Timmermann | |||
| Jean Debarros | |||
| Veerle Visser-Vandewalle | |||
| Tipu Z Aziz | |||
| Shouyan Wang | |||
| Shenghong He | |||
| Yongzhi Huang | |||
| P2860 | cites work | Essential tremor and cerebellar dysfunction clinical and kinematic analysis of intention tremor | Q28141591 |
| Selection of optimal programming contacts based on local field potential recordings from subthalamic nucleus in patients with Parkinson's disease | Q30619781 | ||
| Emerging strategies in the management of essential tremor | Q34554826 | ||
| Variation in deep brain stimulation electrode impedance over years following electrode implantation | Q35935071 | ||
| The primary type of tremor in essential tremor is kinetic rather than postural: cross-sectional observation of tremor phenomenology in 369 cases | Q36438208 | ||
| Post-Movement Beta Activity in Sensorimotor Cortex Indexes Confidence in the Estimations from Internal Models. | Q36534325 | ||
| Deep brain stimulation suppresses pallidal low frequency activity in patients with phasic dystonic movements | Q36745301 | ||
| Proceedings of the Fourth Annual Deep Brain Stimulation Think Tank: A Review of Emerging Issues and Technologies | Q37428776 | ||
| Adaptive deep brain stimulation in advanced Parkinson disease | Q37455619 | ||
| Stimulating at the right time: phase-specific deep brain stimulation | Q37579734 | ||
| Cortical brain computer interface for closed-loop deep brain stimulation. | Q38679388 | ||
| Local vs. volume conductance activity of field potentials in the human subthalamic nucleus | Q38757044 | ||
| Chronic electrocorticography for sensing movement intention and closed-loop deep brain stimulation with wearable sensors in an essential tremor patient | Q39178266 | ||
| Implementing novel trial methods to evaluate surgery for essential tremor. | Q39192807 | ||
| Deep brain stimulation in the nucleus ventralis intermedius in patients with essential tremor: habituation of tremor suppression | Q39829944 | ||
| Thalamic DBS with a constant-current device in essential tremor: A controlled clinical trial | Q40255338 | ||
| Movement decoding using neural synchronization and inter-hemispheric connectivity from deep brain local field potentials | Q40609737 | ||
| Adaptive deep brain stimulation controls levodopa-induced side effects in Parkinsonian patients | Q42356319 | ||
| Beta oscillatory neurons in the motor thalamus of movement disorder and pain patients | Q42465311 | ||
| Consensus statement of the Movement Disorder Society on Tremor. Ad Hoc Scientific Committee. | Q42686827 | ||
| The statistics of natural hand movements | Q43186190 | ||
| Loss of benefit in VIM thalamic deep brain stimulation (DBS) for essential tremor (ET): how prevalent is it? | Q43640629 | ||
| Kinematic Adaptive Deep Brain Stimulation for Resting Tremor in Parkinson's Disease | Q45210089 | ||
| Essential tremor and tremor in Parkinson's disease are associated with distinct 'tremor clusters' in the ventral thalamus | Q45417268 | ||
| The safety and efficacy of thalamic deep brain stimulation in essential tremor: 10 years and beyond. | Q45961563 | ||
| Subthalamic local field potentials after seven-year deep brain stimulation in Parkinson's disease | Q47450181 | ||
| Thalamic gamma oscillations correlate with reaction time in a Go/noGo task in patients with essential tremor | Q48137006 | ||
| Involvement of the basal ganglia and cerebellar motor pathways in the preparation of self-initiated and externally triggered movements in humans | Q48151517 | ||
| Subthalamic span of beta oscillations predicts deep brain stimulation efficacy for patients with Parkinson's disease | Q48172022 | ||
| Value of subthalamic nucleus local field potentials recordings in predicting stimulation parameters for deep brain stimulation in Parkinson's disease | Q48199502 | ||
| Thalamomuscular coherence in essential tremor: hen or egg in the emergence of tremor? | Q48258554 | ||
| On-demand control system for deep brain stimulation for treatment of intention tremor | Q48323252 | ||
| Effect of deep brain stimulation and L-Dopa on electrocortical rhythms related to movement in Parkinson's disease | Q48384785 | ||
| A pilot study: Microlesion effects and tremor outcome in the ventrointermediate deep brain stimulation (VIM-DBS). | Q48402931 | ||
| Brain penetration effects of microelectrodes and deep brain stimulation leads in ventral intermediate nucleus stimulation for essential tremor | Q48491499 | ||
| Enhanced synchronization of thalamic theta band local field potentials in patients with essential tremor | Q48734116 | ||
| Treatment of Medically Refractory Essential Tremor | Q50241731 | ||
| Involvement of human thalamus in the preparation of self-paced movement | Q50283020 | ||
| Posture-related oscillations in human cerebellar thalamus in essential tremor are enabled by voluntary motor circuits | Q50283039 | ||
| Eight-hours adaptive deep brain stimulation in patients with Parkinson disease. | Q52695006 | ||
| P433 | issue | 4 | |
| P921 | main subject | essential tremor | Q693519 |
| P304 | page(s) | 858-867 | |
| P577 | publication date | 2019-02-21 | |
| P1433 | published in | Brain Stimulation | Q15716729 |
| P1476 | title | Decoding voluntary movements and postural tremor based on thalamic LFPs as a basis for closed-loop stimulation for essential tremor | |
| P478 | volume | 12 |
| Q93065093 | Emerging technologies for improved deep brain stimulation |
| Q99404541 | Interactions Between Motor Thalamic Field Potentials and Single-Unit Spiking Are Correlated With Behavior in Rats |
| Q64109146 | Myopic control of neural dynamics |
| Q103002886 | Technology of deep brain stimulation: current status and future directions |
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