scholarly article | Q13442814 |
review article | Q7318358 |
P50 | author | Hayriye Cagnan | Q38327227 |
Peter Brown | Q38327243 | ||
P2093 | author name string | Timothy Denison | |
Cameron McIntyre | |||
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Cortical Potentials Evoked by Subthalamic Stimulation Demonstrate a Short Latency Hyperdirect Pathway in Humans | Q57792637 | ||
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Deep Brain Stimulation and Sleep-Wake Disturbances in Parkinson Disease: A Review | Q58700828 | ||
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Beta burst coupling across the motor circuit in Parkinson's disease | Q61037109 | ||
Microstimulation-induced inhibition of neuronal firing in human globus pallidus | Q64779027 | ||
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MRI-guided laser interstitial thermal thalamotomy for medically intractable tremor disorders | Q64816431 | ||
Event-related deep brain stimulation of the subthalamic nucleus affects conflict processing. | Q64861640 | ||
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Complications of deep brain stimulation surgery | Q77926186 | ||
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Postural changes in spinal cord stimulation perceptual thresholds | Q82855262 | ||
Effects of posture on stimulation parameters in spinal cord stimulation | Q82855267 | ||
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Bilateral deep brain stimulation in Parkinson's disease: a multicentre study with 4 years follow-up | Q39216879 | ||
Blood flow responses to deep brain stimulation of thalamus | Q39407111 | ||
Deep brain stimulation of anterior nucleus thalami disrupts sleep in epilepsy patients | Q40871889 | ||
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A translational platform for prototyping closed-loop neuromodulation systems | Q41827646 | ||
Adaptive deep brain stimulation in a freely moving Parkinsonian patient | Q42392227 | ||
Stimulation of the subthalamic nucleus changes the firing pattern of pallidal neurons. | Q42438103 | ||
High frequency stimulation of the subthalamic nucleus eliminates pathological thalamic rhythmicity in a computational model | Q42460878 | ||
Subthalamic high frequency stimulation resets subthalamic firing and reduces abnormal oscillations. | Q42483167 | ||
Closed-loop deep brain stimulation is superior in ameliorating parkinsonism. | Q42496349 | ||
Effects of GPi stimulation on human thalamic neuronal activity | Q42502484 | ||
Resonant antidromic cortical circuit activation as a consequence of high-frequency subthalamic deep-brain stimulation | Q42520057 | ||
Deep Brain Stimulation Influences Brain Structure in Alzheimer's Disease | Q42613032 | ||
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Minimally invasive endovascular stent-electrode array for high-fidelity, chronic recordings of cortical neural activity | Q44065791 | ||
Pathological synchronisation in the subthalamic nucleus of patients with Parkinson's disease relates to both bradykinesia and rigidity | Q44796715 | ||
Subcallosal cingulate deep brain stimulation for treatment-resistant depression: a multisite, randomised, sham-controlled trial | Q45069517 | ||
From optogenetic technologies to neuromodulation therapies | Q46083455 | ||
Effective Relief of Pain and Associated Symptoms With Closed-Loop Spinal Cord Stimulation System: Preliminary Results of the Avalon Study. | Q46096336 | ||
Gene therapy comes of age. | Q47554885 | ||
Cortical and subcortical blood flow effects of subthalamic nucleus stimulation in PD | Q47611871 | ||
Report of a patient undergoing chronic responsive deep brain stimulation for Tourette syndrome: proof of concept | Q47620287 | ||
Recent advances in neural dust: towards a neural interface platform | Q47733663 | ||
Treatment of the ventral intermediate nucleus for medically refractory tremor: A cost-analysis of stereotactic radiosurgery versus deep brain stimulation | Q47783521 | ||
Neuromodulation with single-element transcranial focused ultrasound in human thalamus | Q47832454 | ||
Brain stimulation for epilepsy--local and remote modulation of network excitability | Q47901092 | ||
Short pulse width in subthalamic stimulation in Parkinson's disease: a randomized, double-blind study. | Q47902482 | ||
Directional local field potentials: A tool to optimize deep brain stimulation | Q47963773 | ||
A localized pallidal physiomarker in cervical dystonia | Q47972653 | ||
Oscillatory coupling of the subthalamic nucleus in obsessive compulsive disorder | Q48011339 | ||
Adaptively controlling deep brain stimulation in essential tremor patient via surface electromyography | Q48088753 | ||
Effects of high-frequency stimulation on subthalamic neuronal activity in parkinsonian patients | Q48090305 | ||
Early performance of a miniaturized leadless cardiac pacemaker: the Micra Transcatheter Pacing Study | Q36109516 | ||
The relative phases of basal ganglia activities dynamically shape effective connectivity in Parkinson's disease | Q36186778 | ||
A Novel Lead Design for Modulation and Sensing of Deep Brain Structures | Q36473998 | ||
External pallidal stimulation improves parkinsonian motor signs and modulates neuronal activity throughout the basal ganglia thalamic network | Q36507110 | ||
Exaggerated phase-amplitude coupling in the primary motor cortex in Parkinson disease. | Q36712553 | ||
Deep brain stimulation suppresses pallidal low frequency activity in patients with phasic dystonic movements | Q36745301 | ||
Tremor suppression by rhythmic transcranial current stimulation | Q36775755 | ||
Role of electrode design on the volume of tissue activated during deep brain stimulation | Q36973827 | ||
Current steering to control the volume of tissue activated during deep brain stimulation. | Q37052074 | ||
Subthalamic nucleus stimulation modulates thalamic neuronal activity | Q37071449 | ||
A Phase II Study of Fornix Deep Brain Stimulation in Mild Alzheimer's Disease | Q37261721 | ||
Pallidal stimulation that improves parkinsonian motor symptoms also modulates neuronal firing patterns in primary motor cortex in the MPTP-treated monkey. | Q37315626 | ||
Deep brain stimulation of the subthalamic nucleus for the treatment of Parkinson's disease | Q37350392 | ||
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Adaptive deep brain stimulation in advanced Parkinson disease | Q37455619 | ||
Decoding gripping force based on local field potentials recorded from subthalamic nucleus in humans | Q37490616 | ||
Stimulating at the right time: phase-specific deep brain stimulation | Q37579734 | ||
Sensor-driven position-adaptive spinal cord stimulation for chronic pain. | Q37978176 | ||
Focus on desynchronization rather than excitability: a new strategy for intraencephalic electrical stimulation | Q38182768 | ||
Closed-loop neurostimulation: the clinical experience | Q38213659 | ||
Estimating the Proportion of Essential Tremor and Parkinson's Disease Patients Undergoing Deep Brain Stimulation Surgery: Five-Year Data From Columbia University Medical Center (2009-2014). | Q38606177 | ||
An optimal strategy for epilepsy surgery: Disruption of the rich-club? | Q38619957 | ||
Directional DBS increases side-effect thresholds-A prospective, double-blind trial | Q38637094 | ||
Silencing Neurons: Tools, Applications, and Experimental Constraints. | Q38643921 | ||
The application of deep brain stimulation in the treatment of psychiatric disorders | Q38681849 | ||
A connectomic approach for subcallosal cingulate deep brain stimulation surgery: prospective targeting in treatment-resistant depression | Q38732063 | ||
Connectivity Predicts deep brain stimulation outcome in Parkinson disease | Q38740947 | ||
Multiple-source current steering in subthalamic nucleus deep brain stimulation for Parkinson's disease (the VANTAGE study): a non-randomised, prospective, multicentre, open-label study. | Q39001090 | ||
Chronic electrocorticography for sensing movement intention and closed-loop deep brain stimulation with wearable sensors in an essential tremor patient | Q39178266 | ||
P2507 | corrigendum / erratum | Publisher Correction: Emerging technologies for improved deep brain stimulation | Q90003546 |
P433 | issue | 9 | |
P921 | main subject | emerging technology | Q120208 |
P304 | page(s) | 1024-1033 | |
P577 | publication date | 2019-09-02 | |
P1433 | published in | Nature Biotechnology | Q1893837 |
P1476 | title | Emerging technologies for improved deep brain stimulation | |
P478 | volume | 37 |
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