scholarly article | Q13442814 |
P2093 | author name string | A Ikeda | |
T Hori | |||
K Baba | |||
R Matsumoto | |||
T Nagamine | |||
N Hashimoto | |||
J Yamamoto | |||
T Mima | |||
T Kunieda | |||
S Ohara | |||
K Hirasawa | |||
M Matsuhashi | |||
H Shibasaki | |||
S Salenius | |||
T Mihara | |||
P2860 | cites work | Oscillations in local field potentials of the primate motor cortex during voluntary movement | Q24562974 |
Event-related EEG/MEG synchronization and desynchronization: basic principles | Q28138839 | ||
Cortical Control of Human Motoneuron Firing During Isometric Contraction | Q28243064 | ||
Synchronization of cortical activity and its putative role in information processing and learning | Q28267764 | ||
Corticocortical connections of area F3 (SMA-proper) and area F6 (pre-SMA) in the macaque monkey | Q28285626 | ||
Visual Feature Integration and the Temporal Correlation Hypothesis | Q28292903 | ||
Coherent oscillations: a mechanism of feature linking in the visual cortex? Multiple electrode and correlation analyses in the cat | Q28293447 | ||
Oscillatory activity in sensorimotor cortex of awake monkeys: synchronization of local field potentials and relation to behavior | Q28300663 | ||
Thalamocortical oscillations in the sleeping and aroused brain | Q29619146 | ||
EEG alpha and theta oscillations reflect cognitive and memory performance: a review and analysis | Q29619431 | ||
Human auditory evoked gamma-band magnetic fields | Q30530993 | ||
Stimulus-specific neuronal oscillations in orientation columns of cat visual cortex | Q33841771 | ||
Synchronization between motor cortex and spinal motoneuronal pool during the performance of a maintained motor task in man | Q59650328 | ||
Event-related coherence during finger movement: a pilot study | Q70948075 | ||
Structural basis of cortical synchronization. II. Effects of cortical lesions | Q71365325 | ||
Dependence of coherence measurements on EEG derivation type | Q71413659 | ||
Movement-related potentials associated with bilateral simultaneous and unilateral movements recorded from human supplementary motor area | Q71564323 | ||
Cerebral structures participating in motor preparation in humans: a positron emission tomography study | Q71570183 | ||
Functional anatomy of the human supplementary sensorimotor area: results of extraoperative electrical stimulation | Q71646868 | ||
Event-related desynchronization and movement-related cortical potentials on the ECoG and EEG | Q71655742 | ||
Calculation of event-related coherence?A new method to study short-lasting coupling between brain areas | Q72109174 | ||
Components of the movement-related cortical potential and their scalp topography | Q72618042 | ||
Force level modulates human cortical oscillatory activities | Q73198104 | ||
Movement-related change of electrocorticographic activity in human supplementary motor area proper | Q73822022 | ||
Functional coupling of human right and left cortical motor areas demonstrated with partial coherence analysis | Q73897855 | ||
Mapping of human and macaque sensorimotor areas by integrating architectonic, transmitter receptor, MRI and PET data | Q33881450 | ||
Interhemispheric synchronization of oscillatory neuronal responses in cat visual cortex | Q34106097 | ||
Visuomotor integration is associated with zero time-lag synchronization among cortical areas | Q34412983 | ||
Both primary motor cortex and supplementary motor area play an important role in complex finger movement | Q36761152 | ||
Anatomy and transmitter receptors of the supplementary motor areas in the human and nonhuman primate brain. | Q36797371 | ||
A framework for the analysis of mixed time series/point process data--theory and application to the study of physiological tremor, single motor unit discharges and electromyograms | Q36841047 | ||
Potentials evoked in human and monkey cerebral cortex by stimulation of the median nerve. A review of scalp and intracranial recordings | Q36933884 | ||
Coherent 25- to 35-Hz oscillations in the sensorimotor cortex of awake behaving monkeys | Q37071548 | ||
Evaluation of event-related desynchronization (ERD) preceding and following voluntary self-paced movement | Q39542713 | ||
Motor areas of the medial wall: a review of their location and functional activation | Q41008838 | ||
Movement-related potentials recorded from supplementary motor area and primary motor area. Role of supplementary motor area in voluntary movements | Q41095752 | ||
Event-related synchronization (ERS): an electrophysiological correlate of cortical areas at rest | Q42091362 | ||
Cognitive motor control in human pre-supplementary motor area studied by subdural recording of discrimination/selection-related potentials | Q48194658 | ||
Functional coupling of human cortical sensorimotor areas during bimanual skill acquisition | Q48194699 | ||
Focal ictal direct current shifts in human epilepsy as studied by subdural and scalp recording | Q48194716 | ||
Intracellular analysis of relations between the slow (< 1 Hz) neocortical oscillation and other sleep rhythms of the electroencephalogram. | Q48239316 | ||
Clinical consequences of corticectomies involving the supplementary motor area in man | Q48247796 | ||
Perception's shadow: long-distance synchronization of human brain activity | Q48282861 | ||
Functional mapping of human sensorimotor cortex with electrocorticographic spectral analysis. II. Event-related synchronization in the gamma band | Q48316918 | ||
Functional mapping of human sensorimotor cortex with electrocorticographic spectral analysis. I. Alpha and beta event-related desynchronization | Q48316928 | ||
Cortical correlate of the Piper rhythm in humans | Q48323595 | ||
The organization of the cortical motor system: new concepts | Q48393881 | ||
Functional coupling and regional activation of human cortical motor areas during simple, internally paced and externally paced finger movements | Q48407984 | ||
Role of the premotor cortex in recovery from middle cerebral artery infarction | Q48409067 | ||
Integrative visuomotor behavior is associated with interregionally coherent oscillations in the human brain | Q48481825 | ||
Using electroencephalography to study functional coupling between cortical activity and electromyograms during voluntary contractions in humans. | Q48510506 | ||
Neural discharge and local field potential oscillations in primate motor cortex during voluntary movements | Q48531242 | ||
A negative motor response elicited by electrical stimulation of the human frontal cortex | Q48569477 | ||
A functional MRI study of subjects recovered from hemiparetic stroke | Q48575895 | ||
Functional organization of human supplementary motor cortex studied by electrical stimulation | Q48626672 | ||
Postoperative deficits and functional recovery following removal of tumors involving the dominant hemisphere supplementary motor area | Q48692698 | ||
Event-related coherence and event-related desynchronization/synchronization in the 10 Hz and 20 Hz EEG during self-paced movements | Q48713481 | ||
Measurement of oscillatory responses to electrical stimulation in olfactory bulb of cat | Q48717024 | ||
The origin of corticospinal projections from the premotor areas in the frontal lobe. | Q48788940 | ||
Structure of the human sensorimotor system. I: Morphology and cytoarchitecture of the central sulcus | Q48811910 | ||
Control of spatiotemporal coherence of a thalamic oscillation by corticothalamic feedback | Q48883725 | ||
Comparison of movement-related activity in two cortical motor areas of primates | Q48902517 | ||
Movement-related slow cortical magnetic fields and changes of spontaneous MEG- and EEG-brain rhythms | Q48932945 | ||
Human cortical 40 Hz rhythm is closely related to EMG rhythmicity | Q48944579 | ||
Hippocampal electrical activity and voluntary movement in the rat. | Q49047451 | ||
The organization and connections of somatosensory cortex in marmosets | Q49088710 | ||
Subdural potentials at orbitofrontal and mesial prefrontal areas accompanying anticipation and decision making in humans: a comparison with Bereitschaftspotential | Q49101573 | ||
Different activation of presupplementary motor area, supplementary motor area proper, and primary sensorimotor area, depending on the movement repetition rate in humans | Q49130438 | ||
Workshop on the anatomic definition and boundaries of the supplementary sensorimotor area. | Q52011477 | ||
Electroencephalographic analysis of cortico-muscular coherence: reference effect, volume conduction and generator mechanism. | Q52135891 | ||
Electrocorticogram–electromyogram coherence during isometric contraction of hand muscle in human | Q57770211 | ||
P433 | issue | 23 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 9377-9386 | |
P577 | publication date | 2001-12-01 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | Increased synchronization of cortical oscillatory activities between human supplementary motor and primary sensorimotor areas during voluntary movements | |
P478 | volume | 21 |
Q47383663 | Anticipatory cortico-cortical interactions: switching the task configuration between effectors |
Q36729896 | Area- and band-specific representations of hand movements by local field potentials in caudal cingulate motor area and supplementary motor area of monkeys |
Q33800221 | Attention to painful cutaneous laser stimuli evokes directed functional connectivity between activity recorded directly from human pain-related cortical structures |
Q48547122 | Behavioral context and coherent oscillations in the supplementary motor area. |
Q48238771 | Coherent oscillations in neuronal activity of the supplementary motor area during a visuomotor task. |
Q36956927 | Cold stimuli evoke potentials that can be recorded directly from parasylvian cortex in humans. |
Q41222228 | Computer simulations of synchrony and oscillations evoked by two coherent inputs |
Q46760422 | Cortical network dynamics during foot movements |
Q34081262 | Corticomuscular coherence between motor cortex, somatosensory areas and forearm muscles in the monkey. |
Q34553680 | Dysfunctional long-range coordination of neural activity during Gestalt perception in schizophrenia. |
Q30575628 | EEG-informed fMRI analysis during a hand grip task: estimating the relationship between EEG rhythms and the BOLD signal |
Q42521926 | Enhanced synchrony among primary motor cortex neurons in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine primate model of Parkinson's disease. |
Q57802465 | Entrainment and maintenance of an internal metronome in supplementary motor area |
Q35147911 | Fear conditioning is associated with dynamic directed functional interactions between and within the human amygdala, hippocampus, and frontal lobe |
Q36922371 | How does a surgeon's brain buzz? An EEG coherence study on the interaction between humans and robot. |
Q37735254 | Human primary motor cortex is both activated and stabilized during observation of other person's phasic motor actions |
Q47708502 | Intended arm use influences interhemispheric correlation of β-oscillations in primate medial motor areas |
Q94474249 | Intervention-induced changes in neural connectivity during motor preparation may affect cortical activity at motor execution |
Q48437686 | Intra- and inter-hemispheric coupling of electroencephalographic 8-13 Hz rhythm in humans and force of static finger extension |
Q33236873 | Intracerebral recording of cortical activity related to self-paced voluntary movements: a Bereitschaftspotential and event-related desynchronization/synchronization. SEEG study |
Q64979380 | L-Dopa Modulation of Brain Connectivity in Parkinson’s Disease Patients: A Pilot EEG-fMRI Study. |
Q47654820 | Low-frequency rTMS over lateral premotor cortex induces lasting changes in regional activation and functional coupling of cortical motor areas |
Q34124933 | Motor-cortical interaction in Gilles de la Tourette syndrome |
Q48282394 | Motor-related functional subdivisions of human lateral premotor cortex: epicortical recording in conditional visuomotor task |
Q38042607 | Neural synchrony within the motor system: what have we learned so far? |
Q24630528 | Neurophysiological and Computational Principles of Cortical Rhythms in Cognition |
Q44672862 | Node accessibility in cortical networks during motor tasks |
Q85227582 | Non-invasive investigation of human brain function |
Q37475000 | Nonlinear Coupling between Cortical Oscillations and Muscle Activity during Isotonic Wrist Flexion |
Q37349663 | Nonlinear phase-phase cross-frequency coupling mediates communication between distant sites in human neocortex |
Q35138397 | Painful cutaneous laser stimuli induce event-related gamma-band activity in the lateral thalamus of humans |
Q33800458 | Painful laser stimuli induce directed functional interactions within and between the human amygdala and hippocampus. |
Q52062728 | Prediction of response speed by anticipatory high-frequency (gamma band) oscillations in the human brain. |
Q34807601 | Preparatory band specific premotor cortical activity differentiates upper and lower extremity movement. |
Q37173090 | Primary motor and sensory cortical areas communicate via spatiotemporally coordinated networks at multiple frequencies |
Q48260004 | Primary sensory and motor cortex activities during voluntary and passive ankle mobilization by the SHADE orthosis |
Q46316815 | Propofol-induced Changes in α-β Sensorimotor Cortical Connectivity |
Q42081163 | Reaching movement onset- and end-related characteristics of EEG spectral power modulations |
Q37083090 | Repetitive transcranial magnetic stimulation-induced changes in sensorimotor coupling parallel improvements of somatosensation in humans |
Q50736851 | Somatosensory demands modulate muscular Beta oscillations, independent of motor demands. |
Q33402966 | The amplitude of physiological tremor can be voluntarily modulated |
Q47360324 | The cerebral oscillatory network of voluntary tremor |
Q92711252 | The functional role of beta-oscillations in the supplementary motor area during reaching and grasping after stroke: A question of structural damage to the corticospinal tract |
Q48195184 | Transient increases of synchronized neural activity during movement preparation: influence of cognitive constraints |
Q85196261 | Unusual cortical stimulation findings: connectivity between primary motor and supplementary motor areas |
Search more.