Exaggerated phase-amplitude coupling in the primary motor cortex in Parkinson disease.
paper
Cited
Public
Unavailable
- Authors
- de Hemptinne, Coralie; Ryapolova-Webb, Elena S; Air, Ellen L; Garcia, Paul A; Miller, Kai J; Ojemann, Jeffrey G; Ostrem, Jill L; Galifianakis, Nicholas B; Starr, Philip A
- Year
- 2013
- Journal
- Proceedings of the National Academy of Sciences of the United States of America
- PMID
- 23471992
- DOI
- 10.1073/pnas.1214546110
- PMCID
- PMC3606991
An important mechanism for large-scale interactions between cortical areas involves coupling between the phase and the amplitude of different brain rhythms. Could basal ganglia disease disrupt this mechanism? We answered this question by analysis of local field potentials recorded from the primary motor cortex (M1) arm area in patients undergoing neurosurgery. In Parkinson disease, coupling between Ξ²-phase (13-30 Hz) and Ξ³-amplitude (50-200 Hz) in M1 is exaggerated compared with patients with craniocervical dystonia and humans without a movement disorder. Excessive coupling may be reduced by therapeutic subthalamic nucleus stimulation. Peaks in M1 Ξ³-amplitude are coupled to, and precede, the subthalamic nucleus Ξ²-trough. The results prompt a model of the basal ganglia-cortical circuit in Parkinson disease incorporating phase-amplitude interactions and abnormal corticosubthalamic feedback and suggest that M1 local field potentials could be used as a control signal for automated programming of basal ganglia stimulators.
No figures extracted from this document.
No chunks β full text not yet ingested.
No entities extracted from this document yet.
No uploaded files.
Not in any collection.
No citations found.
In this knowledge base
External
| Title | Authors | Journal | Year | Link |
|---|---|---|---|---|
| Alcohol use disorder is associated with altered frontomedial phase-amplitude coupling strength during resting state. | Richard CD et al. | β | 2026 | β |
| Delta gamma oscillatory interactions support visuomotor processing in the lateral frontal cortex of macaque monkeys. | Harigae S et al. | β | 2026 | β |
| Focused Ultrasound for the Treatment of Circuit and Molecular Pathology in Parkinson's Disease. | Kofoed RH et al. | β | 2026 | β |
| Multi-Channel Neural Interface for Neural Recording and Neuromodulation. | Kim E et al. | β | 2026 | β |
| Parametrizing alternating current stimulation for neuromodulation. | Vila MB et al. | β | 2026 | β |
| Abnormal phase-amplitude coupling in patients with first-episode schizophrenia during the auditory steady-state response and resting states. | Zhang J et al. | β | 2025 | β |
| A Dynamic Mutual Information Measure of Phase Amplitude Coupling. | Perley AS et al. | β | 2025 | β |
| Alterations in EEG functional connectivity in preterm infants: A systematic review. | Li J et al. | β | 2025 | β |
| Boosting hemianopia recovery: the power of interareal cross-frequency brain stimulation. | Raffin E et al. | β | 2025 | β |
| Brain-Computer Interfaces in Parkinson's Disease Rehabilitation. | Ortega-Robles E et al. | β | 2025 | β |
| Cortical and Corticomuscular Beta-Gamma Phase-Amplitude Coupling During Different Locomotion States and the Effects of Levodopa in Parkinson's Disease. | Zhao H et al. | β | 2025 | β |
| Cortical beta power modulation is asymmetric and reduced during movement execution and inhibition in Parkinson's disease. | Deligani RJ et al. | β | 2025 | β |
| Could adaptive deep brain stimulation treat freezing of gait in Parkinson's disease? | Klocke P et al. | β | 2025 | β |
| Deep brain stimulation of the subthalamic nucleus in Parkinson disease 2013-2023: where are we a further 10 years on? | O'Keeffe AB et al. | β | 2025 | β |
| Encephalography cross-frequency coupling and brain alteration in amyotrophic lateral sclerosis. | Benetton C et al. | β | 2025 | β |
| Event-related dynamic phase-amplitude coupling analysis reveals facial emotional processing deficits in patients with major depressive disorder: a cross-sectional study. | Dong K et al. | β | 2025 | β |
| Imaging high-frequency voltage dynamics in multiple neuron classes of behaving mammals. | Haziza S et al. | β | 2025 | β |
| Locally repulsive coupling-induced tunable oscillations. | Liang X et al. | β | 2025 | β |
| Longitudinal changes of resting-state networks in Parkinson's disease. | Sure M et al. | β | 2025 | β |
| Modulatory effects of transcranial magneto-acoustic stimulation on behavior and corticostriatal transmission of oscillatory activity in a mouse model of Parkinson's disease induced by MPTP. | Xu Y et al. | β | 2025 | β |
| Network mechanisms in rapid-onset dystonia-parkinsonism. | MΓΆller M et al. | β | 2025 | β |
| Non-invasive brain stimulation to modulate neural activity in Parkinson's disease. | Bange M et al. | β | 2025 | β |
| Phase-amplitude coupling during auditory steady-state stimulation: a methodological review. | MockeviΔius A et al. | β | 2025 | β |
| Phase-Amplitude Coupling in Response to Transcutaneous Vagus Nerve Stimulation: Focus on Regions Implicated in Mood and Memory. | Keatch C et al. | β | 2025 | β |
| Real-Time Artifact Suppression in Neuromodulation: A Model-Based Approach. | Salimpour Y et al. | β | 2025 | β |
| Shared pathway-specific network mechanisms of dopamine and deep brain stimulation for the treatment of Parkinson's disease. | Binns TS et al. | β | 2025 | β |
| Spinal cord stimulation restores locomotion in a Parkinson's disease patient and rodents. | Slack JC et al. | β | 2025 | β |
| Temporal concentration and phase synchronization in phase-amplitude coupling. | Nosouhi M et al. | β | 2025 | β |
| The Phase-Amplitude Coupling Changes Induced by Smoking Cue After 12-H Abstinence in Young Smokers. | Ren Z et al. | β | 2025 | β |
| The Place of Local Field Potentials in Deep Brain Stimulation Programming for Parkinson's Disease: A Review. | Leung CHS et al. | β | 2025 | β |
| Theta-gamma coupling: nonlinearity as a universal cross-frequency coupling mechanism. | Sheremet A et al. | β | 2025 | β |
| Transcranial magneto-acoustic stimulation enhances motor function and modulates cortical excitability of motor cortex in a Parkinson's disease mouse model. | Zhang S et al. | β | 2025 | β |
| Transcranial magneto-acoustic stimulation suppresses the power and coherence of beta-oscillations in parkinsonian rat model with improvement motor performance. | Zhang S et al. | β | 2025 | β |
| Using Magnetoencephalography to Advance the Science of Parkinson Disease: A Systematic Review. | Kariv S et al. | β | 2025 | β |
| A framework for translational therapy development in deep brain stimulation. | Chen J et al. | β | 2024 | β |
| Age-related differences in how the shape of alpha and beta oscillations change during reaction time tasks. | Opie GM et al. | β | 2024 | β |
| A mutual information measure of phase-amplitude coupling using gamma generalized linear models. | Perley AS et al. | β | 2024 | β |
| A randomized feasibility trial of medium chain triglyceride-supplemented ketogenic diet in people with Parkinson's disease. | Choi AH et al. | β | 2024 | β |
| Beta-Gamma Phase-Amplitude Coupling as a Non-Invasive Biomarker for Parkinson's Disease: Insights from Electroencephalography Studies. | Hodnik T et al. | β | 2024 | β |
| Beta-gamma phase-amplitude coupling of scalp electroencephalography during walking preparation in Parkinson's disease differs depending on the freezing of gait. | Kimoto Y et al. | β | 2024 | β |
| Beta tACS of varying intensities differentially affect resting-state and movement-related M1-M1 connectivity. | Wansbrough K et al. | β | 2024 | β |
| Circuit-Specific Deep Brain Stimulation Provides Insights into Movement Control. | Gittis AH et al. | β | 2024 | β |
| Closed-loop systems for deep brain stimulation to treat neuropsychiatric disorders. | Balachandar A et al. | β | 2024 | β |
| Cortical hyperexcitability in mouse models and patients with amyotrophic lateral sclerosis is linked to noradrenaline deficiency. | Scekic-Zahirovic J et al. | β | 2024 | β |
| Deep Brain Stimulation Mechanisms in Parkinson's Disease: Immediate and Long-Term Effects. | Pei H et al. | β | 2024 | β |
| Differential contribution of sensorimotor cortex and subthalamic nucleus to unimanual and bimanual hand movements. | Merrick CM et al. | β | 2024 | β |
| Dysfunction of motor cortices in Parkinson's disease. | Chu HY et al. | β | 2024 | β |
| Electrophysiological Signatures in Global Cerebral Ischemia: Neuroprotection Via Chemogenetic Inhibition of CA1 Pyramidal Neurons in Rats. | Liu P et al. | β | 2024 | β |
| Elevated phase amplitude coupling as a depression biomarker in epilepsy. | Young JJ et al. | β | 2024 | β |
| Errors elicit frontoparietal theta-gamma coupling that is modulated by endogenous estradiol levels. | Moser JS et al. | β | 2024 | β |
| Extracting Transient Phase-Amplitude Coupling from Resting-State EEG Signals. | Er A et al. | β | 2024 | β |
| Gait-related beta-gamma phase amplitude coupling in the subthalamic nucleus of parkinsonian patients. | Farokhniaee A et al. | β | 2024 | β |
| High-Gamma Activity Is Coupled to Low-Gamma Oscillations in Precentral Cortices and Modulates with Movement and Speech. | Nie JZ et al. | β | 2024 | β |
| How to design optimal brain stimulation to modulate phase-amplitude coupling? | Duchet B et al. | β | 2024 | β |
| Human Cervical Epidural Spinal Electrogram Topographically Maps Distinct Volitional Movements. | Shukla PD et al. | β | 2024 | β |
| Human local field potentials in motor and non-motor brain areas encode upcoming movement direction. | Combrisson E et al. | β | 2024 | β |
| Lead/Lag directionality is not generally equivalent to causality in nonlinear systems: Comparison of phase slope index and conditional mutual information. | Arinyo-I-Prats A et al. | β | 2024 | β |
| Neuroscience fundamentals relevant to neuromodulation: Neurobiology of deep brain stimulation in Parkinson's disease. | Davidson B et al. | β | 2024 | β |
| No evidence for an association of voxel-based morphometry with short-term non-motor outcomes in deep brain stimulation for Parkinson's disease. | Loehrer PA et al. | β | 2024 | β |
| Oscillatory vs. non-oscillatory subthalamic beta activity in Parkinson's disease. | Pardo-Valencia J et al. | β | 2024 | β |
| Phase-amplitude coupling detection and analysis of human 2-dimensional neural cultures in multi-well microelectrode array in vitro. | Salimpour Y et al. | β | 2024 | β |
| Real-time TMS-EEG for brain state-controlled research and precision treatment: a narrative review and guide. | Wischnewski M et al. | β | 2024 | β |
| Single-pulse Transcranial Magnetic Stimulation Affects Working-memory Performance via Posterior Beta-band Oscillations. | Fulvio JM et al. | β | 2024 | β |
| Syncing the brain's networks: dynamic functional connectivity shifts from temporal interference. | Zhu Z et al. | β | 2024 | β |
| Wavelet-Detected Changes in Nocturnal Brain Electrical Activity in Patients with Non-Motor Disorders Indicative of Parkinson's Disease. | Runnova AE et al. | β | 2024 | β |
| A 16-Channel Low-Power Neural Connectivity Extraction and Phase-Locked Deep Brain Stimulation SoC. | Shin U et al. | β | 2023 | β |
| Abnormal Cross Frequency Coupling of Brain Electroencephalographic Oscillations Related to Visual Oddball Task in Parkinson's Disease with Mild Cognitive Impairment. | BayraktaroΔlu Z et al. | β | 2023 | β |
| Accurate Deep Brain Stimulation Lead Placement Concurrent With Research Electrocorticography. | Kons Z et al. | β | 2023 | β |
| Alterations of PAC-based resting state networks in Parkinson's disease are partially alleviated by levodopa medication. | Mertiens S et al. | β | 2023 | β |
| Alterations of resting-state networks of Parkinson's disease patients after subthalamic DBS surgery. | Sure M et al. | β | 2023 | β |
| A Pilot Study of Ex Vivo Human Prefrontal RNA Transcriptomics in Parkinson's Disease. | Lin LC et al. | β | 2023 | β |
| Closed-Loop Adaptive Deep Brain Stimulation in Parkinson's Disease: Procedures to Achieve It and Future Perspectives. | Wang S et al. | β | 2023 | β |
| Concurrent decoding of distinct neurophysiological fingerprints of tremor and bradykinesia in Parkinson's disease. | Lauro PM et al. | β | 2023 | β |
| Construction of semi-supervised spatial projections to identify the source of beta- and high frequency oscillations in Parkinson's disease. | Branco LRF et al. | β | 2023 | β |
| Cross-Frequency Coupling and Intelligent Neuromodulation. | Yeh CH et al. | β | 2023 | β |
| Deep-learning detection of mild cognitive impairment from sleep electroencephalography for patients with Parkinson's disease. | Parajuli M et al. | β | 2023 | β |
| Dynamic networks of cortico-muscular interactions in sleep and neurodegenerative disorders. | Rizzo R et al. | β | 2023 | β |
| Dystonia and Parkinson's disease: Do they have a shared biology? | Matar E et al. | β | 2023 | β |
| Effects of Contralateral Deep Brain Stimulation and Levodopa on Subthalamic Nucleus Oscillatory Activity and Phase-Amplitude Coupling. | Farokhniaee A et al. | β | 2023 | β |
| Effects on resting-state EEG phase-amplitude coupling in insomnia disorder patients following 1Β Hz left dorsolateral prefrontal cortex rTMS. | Guo Y et al. | β | 2023 | β |
| Elevated Gaussian-modeled beta power in the cortex characterizes aging, but not Parkinson's disease. | Karekal A et al. | β | 2023 | β |
| Hyperkinetic Rat Model Induced by Optogenetic Parafascicular Nucleus Stimulation. | Chung M et al. | β | 2023 | β |
| Insights and opportunities for deep brain stimulation as a brain circuit intervention. | Neumann WJ et al. | β | 2023 | β |
| Interregional phase-amplitude coupling between theta rhythm in the nucleus tractus solitarius and high-frequency oscillations in the hippocampus during REM sleep in rats. | Atiwiwat D et al. | β | 2023 | β |
| Lexicality-Modulated Influence of Auditory Cortex on Subthalamic Nucleus During Motor Planning for Speech. | Weiss AR et al. | β | 2023 | β |
| Machine learning for adaptive deep brain stimulation in Parkinson's disease: closing the loop. | Oliveira AM et al. | β | 2023 | β |
| Modulation of limbic resting-state networks by subthalamic nucleus deep brain stimulation. | Eraifej J et al. | β | 2023 | β |
| Neural responses to social decision-making in suicide attempters with mental disorders. | Liu S et al. | β | 2023 | β |
| Neuromodulation of Neural Oscillations in Health and Disease. | Weiss E et al. | β | 2023 | β |
| Neurophysiological mechanisms of deep brain stimulation across spatiotemporal resolutions. | Neumann WJ et al. | β | 2023 | β |
| Oscillatory beta dynamics inform biomarker-driven treatment optimization for Parkinson's disease. | Radcliffe EM et al. | β | 2023 | β |
| Spectral Topography of the Subthalamic Nucleus to Inform Next-Generation Deep Brain Stimulation. | Averna A et al. | β | 2023 | β |
| Translating Pathological Brain Activity Primers in Parkinson's Disease Research. | Mirzac D et al. | β | 2023 | β |
| Adaptive deep brain stimulation: Retuning Parkinson's disease. | Pozzi NG et al. | β | 2022 | β |
| Altered brain rhythms and behaviour in the accelerated ovarian failure mouse model of human menopause. | Vrontou S et al. | β | 2022 | β |
| A Mutual Information Measure of Phase-Amplitude Coupling using High Dimensional Sparse Models. | Perley A et al. | β | 2022 | β |
| A Waveform-Independent Measure of Recurrent Neural Activity. | Weber I et al. | β | 2022 | β |
| Brain oscillations and Parkinson disease. | Foffani G et al. | β | 2022 | β |
| Clinical neurophysiology of Parkinson's disease and parkinsonism. | Chen R et al. | β | 2022 | β |
| Comparison of event-related modulation index and traditional methods for evaluating phase-amplitude coupling using simulated brain signals. | Tsai CC et al. | β | 2022 | β |
| Cortical phase-amplitude coupling is key to the occurrence and treatment of freezing of gait. | Yin Z et al. | β | 2022 | β |
| Cross-Frequency Brain Network Dynamics Support Pitch Change Detection. | Samiee S et al. | β | 2022 | β |
| Cross-frequency coupling in psychiatric disorders: A systematic review. | Yakubov B et al. | β | 2022 | β |
| Cross-frequency phase-amplitude coupling in repetitive movements in patients with Parkinson's disease. | Gong R et al. | β | 2022 | β |
| Deep brain-machine interfaces: sensing and modulating the human deep brain. | Sui Y et al. | β | 2022 | β |
| Deep brain stimulation for parkinson's disease induces spontaneous cortical hypersynchrony in extended motor and cognitive networks. | Wang MB et al. | β | 2022 | β |
| EEG as a marker of brain plasticity in clinical applications. | Manganotti P et al. | β | 2022 | β |
| Efficient suppression of parkinsonian beta oscillations in a closed-loop model of deep brain stimulation with amplitude modulation. | Bahadori-Jahromi F et al. | β | 2022 | β |
| Frequency Nesting Interactions in the Subthalamic Nucleus Correlate With the Step Phases for Parkinson's Disease. | Jin L et al. | β | 2022 | β |
| Linking Ξ±-synuclein-induced synaptopathy and neural network dysfunction in early Parkinson's disease. | Kulkarni AS et al. | β | 2022 | β |
| Magnetoencephalography detects phase-amplitude coupling in Parkinson's disease. | Tanaka M et al. | β | 2022 | β |
| NeuralTree: A 256-Channel 0.227-ΞΌJ/Class Versatile Neural Activity Classification and Closed-Loop Neuromodulation SoC. | Shin U et al. | β | 2022 | β |
| Neuromodulation in Beta-Band Power Between Movement Execution and Inhibition in the Human Hippocampus. | Del Campo-Vera RM et al. | β | 2022 | β |
| Novel approaches for quantifying beta synchrony in Parkinson's disease. | Karekal A et al. | β | 2022 | β |
| Oscillatory waveform sharpness asymmetry changes in motor thalamus and motor cortex in a rat model of Parkinson's disease. | Parr-Brownlie LC et al. | β | 2022 | β |
| Parkinson's disease detection based on multi-pattern analysis and multi-scale convolutional neural networks. | Qiu L et al. | β | 2022 | β |
| Parkinson's disease is characterized by sub-second resting-state spatio-oscillatory patterns: A contribution from deep convolutional neural network. | Shabanpour M et al. | β | 2022 | β |
| Phase-adaptive brain stimulation of striatal D1 medium spiny neurons in dopamine-depleted mice. | Kim Y et al. | β | 2022 | β |
| Phase- targeted stimulation modulates phase-amplitude coupling in the motor cortex of the human brain. | Salimpour Y et al. | β | 2022 | β |
| Physiologically informed neuromodulation. | Wendt K et al. | β | 2022 | β |
| Reduced Cross-Frequency Coupling and Daytime Sleepiness in Obstructive Sleep Apnea Patients. | Gouveris H et al. | β | 2022 | β |
| Reduced sensorimotor beta dynamics could represent a "slowed movement state" in healthy individuals. | Leriche RB et al. | β | 2022 | β |
| Resting-state electroencephalography based deep-learning for the detection of Parkinson's disease. | Shaban M et al. | β | 2022 | β |
| Sensory processing dysregulations as reliable translational biomarkers in SYNGAP1 haploinsufficiency. | CarreΓ±o-MuΓ±oz MI et al. | β | 2022 | β |
| Single-neuron bursts encode pathological oscillations in subcortical nuclei of patients with Parkinson's disease and essential tremor. | Scherer M et al. | β | 2022 | β |
| State space methods for phase amplitude coupling analysis. | Soulat H et al. | β | 2022 | β |
| Subthalamic low beta bursts differ in Parkinson's disease phenotypes. | Fim Neto A et al. | β | 2022 | β |
| The cortical evoked potential corresponds with deep brain stimulation efficacy in rats. | Cassar IR et al. | β | 2022 | β |
| The phase of sensorimotor mu and beta oscillations has the opposite effect on corticospinal excitability. | Wischnewski M et al. | β | 2022 | β |
| Theta-gamma coupling as a cortical biomarker of brain-computer interface-mediated motor recovery in chronic stroke. | Rustamov N et al. | β | 2022 | β |
| Theta low-gamma phase amplitude coupling in the human orbitofrontal cortex increases during a conflict-processing task. | Chen KH et al. | β | 2022 | β |
| Toward future adaptive deep brain stimulation for Parkinson's disease: the novel biomarker - narrowband gamma oscillation. | Ding H et al. | β | 2022 | β |
| Transcorneal Electrical Stimulation Induces Long-Lasting Enhancement of Brain Functional and Directional Connectivity in Retinal Degeneration Mice. | Agadagba SK et al. | β | 2022 | β |
| Transcranial Current Stimulation as a Tool of Neuromodulation of Cognitive Functions in Parkinson's Disease. | Brak IV et al. | β | 2022 | β |
| Troubleshooting Gait Disturbances in Parkinson's Disease With Deep Brain Stimulation. | Pozzi NG et al. | β | 2022 | β |
| Using linear parameter varying autoregressive models to measure cross frequency couplings in EEG signals. | Kostoglou K et al. | β | 2022 | β |
| Aberrant brain oscillatory coupling from the primary motor cortex in children with autism spectrum disorders. | An KM et al. | β | 2021 | β |
| Addressing Pitfalls in Phase-Amplitude Coupling Analysis with an Extended Modulation Index Toolbox. | Jurkiewicz GJ et al. | β | 2021 | β |
| After-Effects of Intermittent Theta-Burst Stimulation Are Differentially and Phase-Dependently Suppressed by Ξ±- and Ξ²-Frequency Transcranial Alternating Current Stimulation. | Ogata K et al. | β | 2021 | β |
| Alpha and high gamma phase amplitude coupling during motor imagery and weighted cross-frequency coupling to extract discriminative cross-frequency patterns. | Gwon D et al. | β | 2021 | β |
| A Novel Spectrum Contrast Mapping Method for Functional Magnetic Resonance Imaging Data Analysis. | Yu Q et al. | β | 2021 | β |
| Anticipating social incentives recruits alpha-beta oscillations in the human substantia nigra and invigorates behavior across the life span. | Sobczak A et al. | β | 2021 | β |
| A state space modeling approach to real-time phase estimation. | Wodeyar A et al. | β | 2021 | β |
| A State Space Modeling Approach to Real-Time Phase Estimation | Wodeyar A et al. | β | 2021 | β |
| A ventromedial prefrontal dysrhythmia in obsessive-compulsive disorder is attenuated by nucleus accumbens deep brain stimulation. | Treu S et al. | β | 2021 | β |
| Brain rhythm bursts are enhanced by multiplicative noise. | Powanwe AS et al. | β | 2021 | β |
| Chronic deep brain stimulation reduces cortical Ξ²-Ξ³ phase amplitude-coupling in patients with Parkinson's disease. | Eguchi K et al. | β | 2021 | β |
| Coupling between fast and slow oscillator circuits in <i>Cancer borealis</i> is temperature-compensated. | Powell D et al. | β | 2021 | β |
| Device profile of the percept PC deep brain stimulation system for the treatment of Parkinson's disease and related disorders. | Jimenez-Shahed J | β | 2021 | β |
| Distinct roles of dorsal and ventral subthalamic neurons in action selection and cancellation. | Mosher CP et al. | β | 2021 | β |
| Electrocorticography During Deep Brain Stimulation Surgery: Safety Experience From 4 Centers Within the National Institute of Neurological Disorders and Stroke Research Opportunities in Human Consortium. | Sisterson ND et al. | β | 2021 | β |
| Glial Modulation of Electrical Rhythms in a Neuroglial Network Model of Epilepsy. | Grigorovsky V et al. | β | 2021 | β |
| Intraoperative Characterization of Subthalamic Nucleus-to-Cortex Evoked Potentials in Parkinson's Disease Deep Brain Stimulation. | Levinson LH et al. | β | 2021 | β |
| Long-term wireless streaming of neural recordings for circuit discovery and adaptive stimulation in individuals with Parkinson's disease. | Gilron R et al. | β | 2021 | β |
| Magnetoencephalography: physics, techniques, and applications in the basic and clinical neurosciences. | Kim JA et al. | β | 2021 | β |
| Measuring Phase-Amplitude Coupling Based on the Jensen-Shannon Divergence and Correlation Matrix. | Li Z et al. | β | 2021 | β |
| Movement-related changes in pallidocortical synchrony differentiate action execution and observation in humans. | Cross KA et al. | β | 2021 | β |
| Multitaper estimates of phase-amplitude coupling. | Lepage KQ et al. | β | 2021 | β |
| Neuronal biomarkers of Parkinson's disease are present in healthy aging. | Zhang J et al. | β | 2021 | β |
| Revisiting the "Paradox of Stereotaxic Surgery": Insights Into Basal Ganglia-Thalamic Interactions. | Magnusson JL et al. | β | 2021 | β |
| Roles of Motor Cortex Neuron Classes in Reach-Related Modulation for Hemiparkinsonian Rats. | Li M et al. | β | 2021 | β |
| Slowly activating outward membrane currents generate input-output sub-harmonic cross frequency coupling in neurons. | Sinha N et al. | β | 2021 | β |
| Spatiotemporal features of Ξ²-Ξ³ phase-amplitude coupling in Parkinson's disease derived from scalp EEG. | Gong R et al. | β | 2021 | β |
| Spectral characteristics of subthalamic nucleus local field potentials in Parkinson's disease: Phenotype and movement matter. | Godinho F et al. | β | 2021 | β |
| Subthalamic low-frequency oscillations predict vulnerability to cocaine addiction. | Degoulet M et al. | β | 2021 | β |
| Symptom-specific differential motor network modulation by deep brain stimulation in Parkinson's disease. | Gibson WS et al. | β | 2021 | β |
| Theta Synchrony Is Increased near Neural Populations That Are Active When Initiating Instructed Movement. | Ramayya AG et al. | β | 2021 | β |
| Towards adaptive deep brain stimulation: clinical and technical notes on a novel commercial device for chronic brain sensing. | Thenaisie Y et al. | β | 2021 | β |
| Working Memory and Cross-Frequency Coupling of Neuronal Oscillations. | Abubaker M et al. | β | 2021 | β |
| Alterations of distributed neuronal network oscillations during acute pain in freely-moving mice. | Ponsel S et al. | β | 2020 | β |
| Comparison of signal decomposition techniques for analysis of human cortical signals. | Duraivel S et al. | β | 2020 | β |
| Debugging Adaptive Deep Brain Stimulation for Parkinson's Disease. | Little S et al. | β | 2020 | β |
| Deep brain stimulation: a review of the open neural engineering challenges. | Vissani M et al. | β | 2020 | β |
| Delta-gamma phase-amplitude coupling as a biomarker of postictal generalized EEG suppression. | Grigorovsky V et al. | β | 2020 | β |
| Differential Effects of Open- and Closed-Loop Intracortical Microstimulation on Firing Patterns of Neurons in Distant Cortical Areas. | Averna A et al. | β | 2020 | β |
| Dissecting beta-state changes during timed movement preparation in Parkinson's disease. | Heideman SG et al. | β | 2020 | β |
| Distinct subthalamic coupling in the ON state describes motor performance in Parkinson's disease. | Ozturk M et al. | β | 2020 | β |
| Dynamical system based compact deep hybrid network for classification of Parkinson disease related EEG signals. | Shah SAA et al. | β | 2020 | β |
| Evolving concepts on bradykinesia. | Bologna M et al. | β | 2020 | β |
| Functional Use of Directional Local Field Potentials in the Subthalamic Nucleus Deep Brain Stimulation. | Telkes I et al. | β | 2020 | β |
| Identification of nonlinear features in cortical and subcortical signals of Parkinson's Disease patients via a novel efficient measure. | Γzkurt TE et al. | β | 2020 | β |
| Interactions Between Motor Thalamic Field Potentials and Single-Unit Spiking Are Correlated With Behavior in Rats. | Gaidica M et al. | β | 2020 | β |
| Intervention-induced changes in neural connectivity during motor preparation may affect cortical activity at motor execution. | Wilkins KB et al. | β | 2020 | β |
| Intraoperative localization of spatially and spectrally distinct resting-state networks in Parkinson's disease. | Belardinelli P et al. | β | 2020 | β |
| Linear Predictive Approaches Separate Field Potentials in Animal Model of Parkinson's Disease. | Anjum MF et al. | β | 2020 | β |
| Mapping of subthalamic nucleus using microelectrode recordings during deep brain stimulation. | Koirala N et al. | β | 2020 | β |
| Neuroimaging and electrophysiology meet invasive neurostimulation for causal interrogations and modulations of brain states. | Gonzalez-Escamilla G et al. | β | 2020 | β |
| Parkinsonism Differently Affects the Single Neuronal Activity in the Primary and Supplementary Motor Areas in Monkeys: An Investigation in Linear and Nonlinear Domains. | Darbin O et al. | β | 2020 | β |
| Perspective: Phase Amplitude Coupling-Based Phase-Dependent Neuromodulation in Parkinson's Disease. | Hwang BY et al. | β | 2020 | β |
| Precision Timing with Ξ±-Ξ² Oscillatory Coupling: Stopwatch or Motor Control? | Kononowicz TW et al. | β | 2020 | β |
| Prediction of mild parkinsonism revealed by neural oscillatory changes and machine learning. | Bore JC et al. | β | 2020 | β |
| Simulation of Closed-Loop Deep Brain Stimulation Control Schemes for Suppression of Pathological Beta Oscillations in Parkinson's Disease. | Fleming JE et al. | β | 2020 | β |
| Simultaneous cortical and subcortical recordings in humans with movement disorders: Acute and chronic paradigms. | Wozny TA et al. | β | 2020 | β |
| Smart neuromodulation in movement disorders. | Mitchell KT et al. | β | 2020 | β |
| Synchrony Drives Motor Cortex Beta Bursting, Waveform Dynamics, and Phase-Amplitude Coupling in Parkinson's Disease. | O'Keeffe AB et al. | β | 2020 | β |
| Tensorpac: An open-source Python toolbox for tensor-based phase-amplitude coupling measurement in electrophysiological brain signals. | Combrisson E et al. | β | 2020 | β |
| The effect of STN DBS on modulating brain oscillations: consequences for motor and cognitive behavior. | David FJ et al. | β | 2020 | β |
| What Can Local Transfer Entropy Tell Us about Phase-Amplitude Coupling in Electrophysiological Signals? | MartΓnez-Cancino R et al. | β | 2020 | β |
| A systematic review of MEG-based studies in Parkinson's disease: The motor system and beyond. | Boon LI et al. | β | 2019 | β |
| Beta Oscillation-Targeted Neurofeedback Training Based on Subthalamic LFPs in Parkinsonian Patients. | He S et al. | β | 2019 | β |
| Bifurcation structure determines different phase-amplitude coupling patterns in the activity of biologically plausible neural networks. | Velarde OM et al. | β | 2019 | β |
| Changing views of the pathophysiology of Parkinsonism. | Wichmann T | β | 2019 | β |
| Characteristics of Waveform Shape in Parkinson's Disease Detected with Scalp Electroencephalography. | Jackson N et al. | β | 2019 | β |
| Characterization of pallidocortical motor network in Parkinson's disease through complex network analysis. | Xiao R et al. | β | 2019 | β |
| Computer Aided Diagnosis System for multiple sclerosis disease based on phase to amplitude coupling in covert visual attention. | Ahmadi A et al. | β | 2019 | β |
| Connectivity and Dynamics Underlying Synaptic Control of the Subthalamic Nucleus. | Steiner LA et al. | β | 2019 | β |
| Cortical Activation Elicited by Subthalamic Deep Brain Stimulation Predicts Postoperative Motor Side Effects. | Romeo A et al. | β | 2019 | β |
| Cortical Phase-Amplitude Coupling in a Progressive Model of Parkinsonism in Nonhuman Primates. | Devergnas A et al. | β | 2019 | β |
| Cross-Frequency Coupling Based Neuromodulation for Treating Neurological Disorders. | Salimpour Y et al. | β | 2019 | β |
| Cross-Frequency Coupling in Descending Motor Pathways: Theory and Simulation. | Sinha N et al. | β | 2019 | β |
| Deep Brain Stimulation for Parkinson Disease. | Kogan M et al. | β | 2019 | β |
| Deep brain stimulation for Parkinson's disease modulates high-frequency evoked and spontaneous neural activity. | Sinclair NC et al. | β | 2019 | β |
| Deep brain stimulation has state-dependent effects on motor connectivity in Parkinson's disease. | Kahan J et al. | β | 2019 | β |
| Direct comparison of oscillatory activity in the motor system of Parkinson's disease and dystonia: A review of the literature and meta-analysis. | PiΓ±a-Fuentes D et al. | β | 2019 | β |
| Dopamine substitution alters effective connectivity of cortical prefrontal, premotor, and motor regions during complex bimanual finger movements in Parkinson's disease. | Nettersheim FS et al. | β | 2019 | β |
| Effect of levodopa on electroencephalographic biomarkers of the parkinsonian state. | Miller AM et al. | β | 2019 | β |
| Emerging technologies for improved deep brain stimulation. | Cagnan H et al. | β | 2019 | β |
| Empirical analysis of phase-amplitude coupling approaches. | Caiola M et al. | β | 2019 | β |
| Freezing of gait in Parkinson's disease reflects a sudden derangement of locomotor network dynamics. | Pozzi NG et al. | β | 2019 | β |
| Human motor cortical beta bursts relate to movement planning and response errors. | Little S et al. | β | 2019 | β |
| Measuring transient phase-amplitude coupling using local mutual information. | MartΓnez-Cancino R et al. | β | 2019 | β |
| Motor cortical circuits in Parkinson disease and dystonia. | Udupa K et al. | β | 2019 | β |
| Oscillations in cortico-basal ganglia circuits: implications for Parkinson's disease and other neurologic and psychiatric conditions. | Halje P et al. | β | 2019 | β |
| Pallidal thermolesion unleashes gamma oscillations in the motor cortex in Parkinson's disease. | de Hemptinne C et al. | β | 2019 | β |
| Phase-Amplitude Coupling of Neural Oscillations Can Be Effectively Probed with Concurrent TMS-EEG. | Glim S et al. | β | 2019 | β |
| Phase-Dependent Suppression of Beta Oscillations in Parkinson's Disease Patients. | Holt AB et al. | β | 2019 | β |
| Resting Tremor Detection in Parkinson's Disease with Machine Learning and Kalman Filtering. | Yao L et al. | β | 2019 | β |
| Reward Expectation Modulates Local Field Potentials, Spiking Activity and Spike-Field Coherence in the Primary Motor Cortex. | An J et al. | β | 2019 | β |
| The Emerging Role of Biomarkers in Adaptive Modulation of Clinical Brain Stimulation. | Hoang KB et al. | β | 2019 | β |
| The Evolution of Neuromodulation in the Treatment of Chronic Pain: Forward-Looking Perspectives. | Fishman MA et al. | β | 2019 | β |
| The Functional Role of Thalamocortical Coupling in the Human Motor Network. | Opri E et al. | β | 2019 | β |
| The Subthalamic Nucleus: Unravelling New Roles and Mechanisms in the Control of Action. | Bonnevie T et al. | β | 2019 | β |
| Time-Frequency Based Phase-Amplitude Coupling Measure For Neuronal Oscillations. | Munia TTK et al. | β | 2019 | β |
| Toward Electrophysiology-Based Intelligent Adaptive Deep Brain Stimulation for Movement Disorders. | Neumann WJ et al. | β | 2019 | β |
| Washout of chronic therapeutic deep brain stimulation increases cortical phase-amplitude coupling. | Rajagopalan SS et al. | β | 2019 | β |
| Workshops of the Seventh International Brain-Computer Interface Meeting: Not Getting Lost in Translation. | Huggins JE et al. | β | 2019 | β |
| A human prefrontal-subthalamic circuit for cognitive control. | Kelley R et al. | β | 2018 | β |
| An update on adaptive deep brain stimulation in Parkinson's disease. | Habets JGV et al. | β | 2018 | β |
| Approaches to closed-loop deep brain stimulation for movement disorders. | Kuo CH et al. | β | 2018 | β |
| Bayesian adaptive dual control of deep brain stimulation in a computational model of Parkinson's disease. | Grado LL et al. | β | 2018 | β |
| Characterizing the effects of deep brain stimulation with magnetoencephalography: A review. | Harmsen IE et al. | β | 2018 | β |
| Chronic deep brain stimulation normalizes scalp EEG activity in isolated dystonia. | Miocinovic S et al. | β | 2018 | β |
| Chronic multisite brain recordings from a totally implantable bidirectional neural interface: experience in 5 patients with Parkinson's disease. | Swann NC et al. | β | 2018 | β |
| Effects of Transcranial Alternating Current Stimulation on Repetitive Finger Movements in Healthy Humans. | Guerra A et al. | β | 2018 | β |
| Generic dynamic causal modelling: An illustrative application to Parkinson's disease. | van Wijk BCM et al. | β | 2018 | β |
| How to Build a Functional Connectomic Biomarker for Mild Cognitive Impairment From Source Reconstructed MEG Resting-State Activity: The Combination of ROI Representation and Connectivity Estimator Matters. | Dimitriadis SI et al. | β | 2018 | β |
| Identifying Phase-Amplitude Coupling in Cyclic Alternating Pattern using Masking Signals. | Yeh CH et al. | β | 2018 | β |
| Intracarotid amobarbital disrupts synchronous and nested oscillatory activity ipsilateral to injection. | Young JJ et al. | β | 2018 | β |
| Local field potentials of subthalamic nucleus contain electrophysiological footprints of motor subtypes of Parkinson's disease. | Telkes I et al. | β | 2018 | β |
| Model-based deconstruction of cortical evoked potentials generated by subthalamic nucleus deep brain stimulation. | Kumaravelu K et al. | β | 2018 | β |
| Motor cognition in patients treated with subthalamic nucleus deep brain stimulation: Limits of compensatory overactivity in Parkinson's disease. | Hagelweide K et al. | β | 2018 | β |
| Movement-Modulation of Local Power and Phase Amplitude Coupling in Bilateral Globus Pallidus Interna in Parkinson Disease. | AuYong N et al. | β | 2018 | β |
| Novel techniques for large-scale manipulations of cortical networks in non-human primates. | Yazdan-Shahmorad A et al. | β | 2018 | β |
| Oophorectomy Reduces Estradiol Levels and Long-Term Spontaneous Neurovascular Recovery in a Female Rat Model of Focal Ischemic Stroke. | Bazzigaluppi P et al. | β | 2018 | β |
| Pallidal Deep-Brain Stimulation Disrupts Pallidal Beta Oscillations and Coherence with Primary Motor Cortex in Parkinson's Disease. | Wang DD et al. | β | 2018 | β |
| Pallidal deep brain stimulation modulates excessive cortical high Ξ² phase amplitude coupling in Parkinson disease. | Malekmohammadi M et al. | β | 2018 | β |
| Pallidal stimulation in Parkinson disease differentially modulates local and network Ξ² activity. | Malekmohammadi M et al. | β | 2018 | β |
| Phase matters: A role for the subthalamic network during gait. | Arnulfo G et al. | β | 2018 | β |
| Real-Time Neurofeedback to Modulate Ξ²-Band Power in the Subthalamic Nucleus in Parkinson's Disease Patients. | Fukuma R et al. | β | 2018 | β |
| Realtime phase-amplitude coupling analysis of micro electrode recorded brain signals. | Lu DC et al. | β | 2018 | β |
| Role of the Cortico-Subthalamic Hyperdirect Pathway in Deep Brain Stimulation for the Treatment of Parkinson Disease: A Diffusion Tensor Imaging Study. | Chen Y et al. | β | 2018 | β |
| Adaptive Deep Brain Stimulation for Movement Disorders: The Long Road to Clinical Therapy. | Meidahl AC et al. | β | 2017 | β |
| Algorithmic design of a noise-resistant and efficient closed-loop deep brain stimulation system: A computational approach. | Karamintziou SD et al. | β | 2017 | β |
| A neural mass model of cross frequency coupling. | Chehelcheraghi M et al. | β | 2017 | β |
| A proof-of-principle simulation for closed-loop control based on preexisting experimental thalamic DBS-enhanced instrumental learning. | Wang CF et al. | β | 2017 | β |
| Biomarkers and Stimulation Algorithms for Adaptive Brain Stimulation. | Hoang KB et al. | β | 2017 | β |
| Current Practice and the Future of Deep Brain Stimulation Therapy in Parkinson's Disease. | Almeida L et al. | β | 2017 | β |
| Dual origins of measured phase-amplitude coupling reveal distinct neural mechanisms underlying episodic memory in the human cortex. | Vaz AP et al. | β | 2017 | β |
| Innovations in deep brain stimulation methodology. | KΓΌhn AA et al. | β | 2017 | β |
| Instantaneous voltage as an alternative to power- and phase-based interpretation of oscillatory brain activity. | Schalk G et al. | β | 2017 | β |
| Intraoperative electrocorticography for physiological research in movement disorders: principles and experience in 200 cases. | Panov F et al. | β | 2017 | β |
| Is Broadband Gamma Activity Pathologically Synchronized to the Beta Rhythm in Parkinson's Disease? | van Wijk BCM | β | 2017 | β |
| Magnetoencephalography for brain electrophysiology and imaging. | Baillet S | β | 2017 | β |
| Mild parkinsonian features in dystonia: Literature review, mechanisms and clinical perspectives. | Haggstrom L et al. | β | 2017 | β |
| Modulation of hippocampal activity with fornix Deep Brain Stimulation. | Stypulkowski PH et al. | β | 2017 | β |
| Neurofeedback Control in Parkinsonian Patients Using Electrocorticography Signals Accessed Wirelessly With a Chronic, Fully Implanted Device. | Khanna P et al. | β | 2017 | β |
| Nonsinusoidal Beta Oscillations Reflect Cortical Pathophysiology in Parkinson's Disease. | Cole SR et al. | β | 2017 | β |
| Oscillatory activity in the basal ganglia and deep brain stimulation. | Guridi J et al. | β | 2017 | β |
| Pallidal low Ξ²-low Ξ³ phase-amplitude coupling inversely correlates with Parkinson disease symptoms. | Tsiokos C et al. | β | 2017 | β |
| Parkinsonism and vigilance: alteration in neural oscillatory activity and phase-amplitude coupling in the basal ganglia and motor cortex. | Escobar Sanabria D et al. | β | 2017 | β |
| Reengineering deep brain stimulation for movement disorders: Emerging technologies. | Gunduz A et al. | β | 2017 | β |
| The Detection of Phase Amplitude Coupling during Sensory Processing. | Seymour RA et al. | β | 2017 | β |
| What Have We Learned About Movement Disorders from Functional Neurosurgery? | Lozano AM et al. | β | 2017 | β |
| A General Method for Evaluating Deep Brain Stimulation Effects on Intravenous Methamphetamine Self-Administration. | Batra V et al. | β | 2016 | β |
| A neural mass model of phase-amplitude coupling. | Chehelcheraghi M et al. | β | 2016 | β |
| Cholinergic mechanisms of high-frequency stimulation in entopeduncular nucleus. | Luo F et al. | β | 2016 | β |
| Deep Brain Stimulation for Movement Disorders of Basal Ganglia Origin: Restoring Function or Functionality? | Wichmann T et al. | β | 2016 | β |
| Deep brain stimulation of the subthalamic nucleus alters frontal activity during spatial working memory maintenance of patients with Parkinson's disease. | Mayer JS et al. | β | 2016 | β |
| Different clinical course of pallidal deep brain stimulation for phasic- and tonic-type cervical dystonia. | Chung M et al. | β | 2016 | β |
| Electrocorticography reveals beta desynchronization in the basal ganglia-cortical loop during rest tremor in Parkinson's disease. | Qasim SE et al. | β | 2016 | β |
| Electrophysiological interpretations of the clinical response to stimulation parameters of pallidal deep brain stimulation for cervical dystonia. | Huh R et al. | β | 2016 | β |
| Evaluation of Phase-Amplitude Coupling in Resting State Magnetoencephalographic Signals: Effect of Surrogates and Evaluation Approach. | Gohel B et al. | β | 2016 | β |
| Frequency-Specific Synchronization in the Bilateral Subthalamic Nuclei Depending on Voluntary Muscle Contraction and Relaxation in Patients with Parkinson's Disease. | Kato K et al. | β | 2016 | β |
| Gamma Oscillations in the Hyperkinetic State Detected with Chronic Human Brain Recordings in Parkinson's Disease. | Swann NC et al. | β | 2016 | β |
| GPi Oscillatory Activity Differentiates Tics from the Resting State, Voluntary Movements, and the Unmedicated Parkinsonian State. | Jimenez-Shahed J et al. | β | 2016 | β |
| Implantable neurotechnologies: bidirectional neural interfaces--applications and VLSI circuit implementations. | Greenwald E et al. | β | 2016 | β |
| Influence of White and Gray Matter Connections on Endogenous Human Cortical Oscillations. | Hawasli AH et al. | β | 2016 | β |
| Long-Term Task- and Dopamine-Dependent Dynamics of Subthalamic Local Field Potentials in Parkinson's Disease. | Hanrahan SJ et al. | β | 2016 | β |
| Mechanisms of deep brain stimulation. | Herrington TM et al. | β | 2016 | β |
| Motor System Interactions in the Beta Band Decrease during Loss of Consciousness. | Swann NC et al. | β | 2016 | β |
| Movement-related dynamics of cortical oscillations in Parkinson's disease and essential tremor. | Kondylis ED et al. | β | 2016 | β |
| Npas1+ Pallidal Neurons Target Striatal Projection Neurons. | Glajch KE et al. | β | 2016 | β |
| Pain Related Cortical Oscillations: Methodological Advances and Potential Applications. | Peng W et al. | β | 2016 | β |
| Pallidostriatal Projections Promote Ξ² Oscillations in a Dopamine-Depleted Biophysical Network Model. | Corbit VL et al. | β | 2016 | β |
| Parkinsonian Rest Tremor Is Associated With Modulations of Subthalamic High-Frequency Oscillations. | Hirschmann J et al. | β | 2016 | β |
| Phase-amplitude coupling, an indication of bursting in parkinsonism, is masked by periodic pulses. | Sanders TH | β | 2016 | β |
| Physiological changes in the pallidum in a progressive model of Parkinson's disease: Are oscillations enough? | Muralidharan A et al. | β | 2016 | β |
| Predictability of depression severity based on posterior alpha oscillations. | Jiang H et al. | β | 2016 | β |
| Primary motor cortex of the parkinsonian monkey: altered encoding of active movement. | Pasquereau B et al. | β | 2016 | β |
| Proceedings of the Eighth International Workshop on Advances in Electrocorticography. | Ritaccio AL et al. | β | 2016 | β |
| Reduced alpha-gamma phase amplitude coupling over right parietal cortex is associated with implicit visuomotor sequence learning. | Tzvi E et al. | β | 2016 | β |
| Resting-state functional connectivity of subthalamic nucleus in different Parkinson's disease phenotypes. | Wang Z et al. | β | 2016 | β |
| Spatial Working Memory in Humans Depends on Theta and High Gamma Synchronization in the Prefrontal Cortex. | Alekseichuk I et al. | β | 2016 | β |
| Spectral Variability in the Aged Brain during Fine Motor Control. | Quandt F et al. | β | 2016 | β |
| Subthalamic local field potentials in Parkinson's disease and isolated dystonia: An evaluation of potential biomarkers. | Wang DD et al. | β | 2016 | β |
| Subthalamic nucleus phase-amplitude coupling correlates with motor impairment in Parkinson's disease. | van Wijk BC et al. | β | 2016 | β |
| Three-dimensional localization of cortical electrodes in deep brain stimulation surgery from intraoperative fluoroscopy. | Randazzo MJ et al. | β | 2016 | β |
| Topology, Cross-Frequency, and Same-Frequency Band Interactions Shape the Generation of Phase-Amplitude Coupling in a Neural Mass Model of a Cortical Column. | Sotero RC | β | 2016 | β |
| Untangling Cortico-Striatal Connectivity and Cross-Frequency Coupling in L-DOPA-Induced Dyskinesia. | BeliΔ JJ et al. | β | 2016 | β |
| Alterations in neuronal activity in basal ganglia-thalamocortical circuits in the parkinsonian state. | Galvan A et al. | β | 2015 | β |
| Analysis and Prediction of the Freezing of Gait Using EEG Brain Dynamics. | Handojoseno AM et al. | β | 2015 | β |
| Are we close to the advent of closed loop deep brain stimulation in Parkinson's disease? | Udupa K et al. | β | 2015 | β |
| Clinical utility of brain stimulation modalities following traumatic brain injury: current evidence. | Li S et al. | β | 2015 | β |
| Coupling in the cortico-basal ganglia circuit is aberrant in the ketamine model of schizophrenia. | Cordon I et al. | β | 2015 | β |
| Custom-fit radiolucent cranial implants for neurophysiological recording and stimulation. | Mulliken GH et al. | β | 2015 | β |
| Dynamic network communication as a unifying neural basis for cognition, development, aging, and disease. | Voytek B et al. | β | 2015 | β |
| Elevated synchrony in Parkinson disease detected with electroencephalography. | Swann NC et al. | β | 2015 | β |
| Engineering the next generation of clinical deep brain stimulation technology. | McIntyre CC et al. | β | 2015 | β |
| Good vibrations with deep brain stimulation. | Williams ZM | β | 2015 | β |
| High Frequency Deep Brain Stimulation and Neural Rhythms in Parkinson's Disease. | Blumenfeld Z et al. | β | 2015 | β |
| Human thalamus regulates cortical activity via spatially specific and structurally constrained phase-amplitude coupling. | Malekmohammadi M et al. | β | 2015 | β |
| Interaction of synchronized dynamics in cortex and basal ganglia in Parkinson's disease. | Ahn S et al. | β | 2015 | β |
| Laminar Distribution of Phase-Amplitude Coupling of Spontaneous Current Sources and Sinks. | Sotero RC et al. | β | 2015 | β |
| Modeling the Generation of Phase-Amplitude Coupling in Cortical Circuits: From Detailed Networks to Neural Mass Models. | Sotero RC | β | 2015 | β |
| Modulations in oscillatory frequency and coupling in globus pallidus with increasing parkinsonian severity. | Connolly AT et al. | β | 2015 | β |
| Morphological changes of glutamatergic synapses in animal models of Parkinson's disease. | Villalba RM et al. | β | 2015 | β |
| Multimodal approaches to define network oscillations in depression. | Smart OL et al. | β | 2015 | β |
| Network effects of deep brain stimulation. | Alhourani A et al. | β | 2015 | β |
| Parametric estimation of cross-frequency coupling. | van Wijk BC et al. | β | 2015 | β |
| Patterns of Cortical Synchronization in Isolated Dystonia Compared With Parkinson Disease. | Miocinovic S et al. | β | 2015 | β |
| Periodic Forcing of Inhibition-Stabilized Networks: Nonlinear Resonances and Phase-Amplitude Coupling. | Veltz R et al. | β | 2015 | β |
| Proceedings of the Second Annual Deep Brain Stimulation Think Tank: What's in the Pipeline. | Gunduz A et al. | β | 2015 | β |
| Spatial distribution of nonlinear interactions in subthalamic nucleus local field potentials in Parkinson'S disease. | Meloni G et al. | β | 2015 | β |
| Task-related activity in sensorimotor cortex in Parkinson's disease and essential tremor: changes in beta and gamma bands. | Rowland NC et al. | β | 2015 | β |
| The mechanisms of action of deep brain stimulation and ideas for the future development. | Udupa K et al. | β | 2015 | β |
| Therapeutic cortical-cortical coupling in Parkinson disease. | Alhourani A et al. | β | 2015 | β |
| Towards large-scale, human-based, mesoscopic neurotechnologies. | Chang EF | β | 2015 | β |
| Toward sophisticated basal ganglia neuromodulation: Review on basal ganglia deep brain stimulation. | Da Cunha C et al. | β | 2015 | β |
| Untangling cross-frequency coupling in neuroscience. | Aru J et al. | β | 2015 | β |
| A shift from prospective to reactive modulation of beta-band oscillations in Parkinson's disease. | te Woerd ES et al. | β | 2014 | β |
| Beta-coupled high-frequency activity and beta-locked neuronal spiking in the subthalamic nucleus of Parkinson's disease. | Yang AI et al. | β | 2014 | β |
| Chronic cortical and electromyographic recordings from a fully implantable device: preclinical experience in a nonhuman primate. | Ryapolova-Webb E et al. | β | 2014 | β |
| Corticostriatal coordination through coherent phase-amplitude coupling. | von Nicolai C et al. | β | 2014 | β |
| Creating the feedback loop: closed-loop neurostimulation. | Hebb AO et al. | β | 2014 | β |
| Current science. | Machado A | β | 2014 | β |
| Focusing brain therapeutic interventions in space and time for Parkinson's disease. | Little S et al. | β | 2014 | β |
| Neural circuit modulation during deep brain stimulation at the subthalamic nucleus for Parkinson's disease: what have we learned from neuroimaging studies? | Albaugh DL et al. | β | 2014 | β |
| Neurostimulation for traumatic brain injury. | Shin SS et al. | β | 2014 | β |
| Oscillatory dynamics track motor performance improvement in human cortex. | DΓΌrschmid S et al. | β | 2014 | β |
| Reassessing models of basal ganglia function and dysfunction. | Nelson AB et al. | β | 2014 | β |
| Reduced ethanol consumption by alcohol-preferring (P) rats following pharmacological silencing and deep brain stimulation of the nucleus accumbens shell. | Wilden JA et al. | β | 2014 | β |
| Relationship between oscillatory activity in the cortico-basal ganglia network and parkinsonism in MPTP-treated monkeys. | Devergnas A et al. | β | 2014 | β |
| Reliability of directional information in unsorted spikes and local field potentials recorded in human motor cortex. | Perge JA et al. | β | 2014 | β |
| Resting state functional MRI in Parkinson's disease: the impact of deep brain stimulation on 'effective' connectivity. | Kahan J et al. | β | 2014 | β |
| Task specific inter-hemispheric coupling in human subthalamic nuclei. | Darvas F et al. | β | 2014 | β |
| Thalamo-cortical cross-frequency coupling detected with MEG. | van Wijk BC et al. | β | 2014 | β |
| Three-dimensional accuracy of ECOG strip electrode localization using coregistration of preoperative MRI and intraoperative fluoroscopy. | Rowland NC et al. | β | 2014 | β |
| Abnormal cortical brain rhythms in Parkinson disease. | Richardson RM | β | 2013 | β |
| A direct relationship between oscillatory subthalamic nucleus-cortex coupling and rest tremor in Parkinson's disease. | Hirschmann J et al. | β | 2013 | β |
| Canonical Correlation to Estimate the Degree of Parkinsonism from Local Field Potential and Electroencephalographic Signals. | Sanders TH et al. | β | 2013 | β |
| Commentary on "Adaptive deep brain stimulation in advanced Parkinson disease". | Starr PA et al. | β | 2013 | β |
| Deep brain stimulation: a mechanistic and clinical update. | Karas PJ et al. | β | 2013 | β |
| Delta-mediated cross-frequency coupling organizes oscillatory activity across the rat cortico-basal ganglia network. | LΓ³pez-AzcΓ‘rate J et al. | β | 2013 | β |
| Subthalamic nucleus neurons are synchronized to primary motor cortex local field potentials in Parkinson's disease. | Shimamoto SA et al. | β | 2013 | β |
| Synchronized neural oscillations and the pathophysiology of Parkinson's disease. | Oswal A et al. | β | 2013 | β |