Search results for "sensory cortex"

showing 10 items of 113 documents

Rapid developmental switch in the mechanisms driving early cortical columnar networks

2006

The immature cerebral cortex self-organizes into local neuronal clusters long before it is activated by patterned sensory inputs. In the cortical anlage of newborn mammals, neurons coassemble through electrical or chemical synapses either spontaneously or by activation of transmitter-gated receptors. The neuronal network and the cellular mechanisms underlying this cortical self-organization process during early development are not completely understood. Here we show in an intact in vitro preparation of the immature mouse cerebral cortex that neurons are functionally coupled in local clusters by means of propagating network oscillations in the beta frequency range. In the newborn mouse, this…

Action PotentialsSensory systemBiologyReceptors N-Methyl-D-AspartateSynapseMiceSubplatemedicineBiological neural networkAnimalsReceptorNeuronsMultidisciplinaryGap junctionGap JunctionsSomatosensory CortexElectrophysiologyMice Inbred C57BLElectrophysiologymedicine.anatomical_structureBiochemistryAnimals NewbornCerebral cortexSynapsesNMDA receptorCarbacholNeuronCortical columnNeurosciencee-Neuroforum
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Different generators in human temporal-parasylvian cortex account for subdural laser-evoked potentials, auditory-evoked potentials, and event-related…

2000

In order to localize cortical areas mediating pain we now report subdural cortical potentials evoked by auditory stimulation (auditory-evoked potentials - AEPs) and by cutaneous stimulation with a laser (laser-evoked potentials - LEPs). Stimulation with the laser evokes a pure pain sensation by selective activation of nociceptors. LEPs were maximal over the inferior aspect of the central sulcus and had the same polarity on either side of the sylvian fissure. AEPs were maximal posterior to the LEP maximum and had opposite polarity on opposite sides of the sylvian fissure, consistent with the location of a known generator in the temporal operculum. Auditory P3 (event-related) potentials were …

AdultBrain MappingLaser-Evoked PotentialsSecondary somatosensory cortexLasersGeneral NeuroscienceNociceptorsSomatosensory CortexSubdural SpaceAnatomyCentral sulcusTemporal LobeTemporal lobeElectrophysiologymedicine.anatomical_structureCerebral cortexEvoked Potentials SomatosensoryCortex (anatomy)Evoked Potentials AuditorymedicineHumansPsychologyOperculum (brain)Evoked PotentialsNeuroscienceNeuroscience Letters
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Motor Action Execution in Reaction-Time Movements

2019

OBJECTIVE Reaction-time movements are internally planned in the brain. Presumably, proactive control in reaction-time movements appears as an inhibitory phase preceding movement execution. We identified the brain activity of reaction-time movements in close proximity to movement onset and compared it with similar self-paced voluntary movements without external command. DESIGN We recorded 18 healthy participants performing reaction-time and self-paced fast index finger abductions with 306-sensor magnetoencephalography and electromyography. Reaction-time movements were performed as responses to cutaneous electrical stimulation delivered on the hand radial nerve area. Motor field and movement-…

AdultMale030506 rehabilitationBrain activity and meditationMovementPhysical Therapy Sports Therapy and RehabilitationSensory systemStimulationElectromyography03 medical and health sciences0302 clinical medicineReaction TimemedicineHumansmedicine.diagnostic_testMovement (music)business.industryRehabilitationMotor CortexMagnetoencephalographySomatosensory CortexMagnetoencephalographyIndex fingermedicine.anatomical_structureFemalePrimary motor cortex0305 other medical sciencebusinessNeuroscience030217 neurology & neurosurgeryAmerican Journal of Physical Medicine & Rehabilitation
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Acute Alcohol Effects on Neuronal and Attentional Processing: Striatal Reward System and Inhibitory Sensory Interactions under Acute Ethanol Challenge

2004

The acute influence of ethanol on cerebral activity induces complex psycho-physiological effects that are considerably more pronounced during acute ethanol influx than during maximal blood alcohol concentration (elimination phase). Despite the psychiatric and forensic relevance of these different ethanol effects, the underlying neuronal mechanisms are still unclear. In total, 20 male healthy volunteers were investigated each with three different experimental conditions in a randomized order using an intravenous ethanol challenge (40 g bolus infusion): during influx phase, elimination phase, and under placebo condition. During and after the ethanol (or placebo) infusion, neuropsychological t…

AdultMaleCentral nervous systemSensory systemStriatumNeuropsychological TestsPlaceboRewardFluorodeoxyglucose F18Cortex (anatomy)Image Processing Computer-AssistedmedicineHumansAttentionSingle-Blind MethodSensory cortexBrain ChemistryNeuronsPharmacologyTemporal cortexEthanolCentral Nervous System DepressantsReciprocal inhibitionNeostriatumPsychiatry and Mental healthGlucosemedicine.anatomical_structurePsychologyNeuroscienceTomography Emission-ComputedNeuropsychopharmacology
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Central activation by histamine-induced itch: analogies to pain processing: a correlational analysis of O-15 H2O positron emission tomography studies

2001

The aim of this study was to identify the functional cerebral network involved in the central processing of itch and to detect analogies and differences to previously identified cerebral activation patterns triggered by painful noxious stimuli. Repeated positron emission tomography regional cerebral blood flow (rCBF) measurements using O15-labeled water were performed in six healthy right-handed male subjects (mean age 32 +/- 2 years). Each subject underwent 12 sequential rCBF measurements. In all subjects a standardized skin prick test was performed on the right forearm 2 min before each rCBF measurement. For activation, histamine was applied in nine tests in logarithmically increasing con…

AdultMaleCingulate cortexPainPremotor cortexOxygen RadioisotopesmedicineHumansPrefrontal cortexPain MeasurementCerebral CortexTemporal cortexSupplementary motor areaSecondary somatosensory cortexPruritusAnesthesiology and Pain Medicinemedicine.anatomical_structureNeurologyCerebrovascular CirculationNeurology (clinical)Primary motor cortexPsychologyNeuroscienceHistamineTomography Emission-ComputedMotor cortexPain
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Spatial resolution of fMRI in the human parasylvian cortex: Comparison of somatosensory and auditory activation

2005

Abstract In spite of its outstanding spatial resolution, the biological resolution of functional MRI may be worse because it depends on the vascular architecture of the brain. Here, we compared the activation patterns of the secondary somatosensory and parietal ventral cortex (SII/PV) with that of the primary auditory cortex and adjacent areas (AI/AII). These two brain regions are located immediately adjacent to each other on opposite banks of the Sylvian fissure, and are anatomically and functionally distinct. In 12 healthy subjects, SII/PV was activated by pneumatic tactile stimuli applied to the index finger (0.5 cm 2 contact area, 4 bar pressure), and AI/AII by amplitude-modulated tones…

AdultMaleCognitive NeuroscienceAuditory cortexSomatosensory systemcomputer.software_genreSensitivity and SpecificityFingersImaging Three-DimensionalReference ValuesVoxelEvoked Potentials SomatosensoryParietal LobeCortex (anatomy)Image Processing Computer-AssistedmedicineHumansDominance CerebralAuditory CortexAnalysis of VarianceBrain MappingSecondary somatosensory cortexCerebral AqueductSomatosensory CortexAnatomyIndex fingerSulcusImage EnhancementMagnetic Resonance Imagingmedicine.anatomical_structureAcoustic StimulationNeurologyTouchSpatial normalizationEvoked Potentials AuditoryFemalePsychologyNeurosciencecomputerNeuroImage
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Bodily self-relatedness in vicarious touch is reflected at early cortical processing stages.

2019

Studies have suggested that there is a strong link between the bodily self and the mechanisms underlying vicarious representations. Here, we used somatosensory ERPs to investigate the temporal dynamics of vicarious touch for stimuli that are more or less related to one's own body (human hands vs. rubber gloves). We found that vicarious touch effects were restricted to self-relatable events (human hands) at early implicit stages of somatosensory processing (P45). At later more cognitive stages of processing (late positive complex, LPC), the vicarious touch effect was stronger for self-relatable events (touch on human hands) than nonself-relatable events (touch on rubber gloves) but present f…

AdultMaleCognitive NeuroscienceExperimental and Cognitive PsychologySomatosensory system050105 experimental psychologyCortical processingInteroception03 medical and health sciencesYoung Adult0302 clinical medicineDevelopmental NeuroscienceMentalizationEvoked Potentials SomatosensoryHumans0501 psychology and cognitive sciencesBiological PsychiatryCerebral CortexEndocrine and Autonomic SystemsGeneral Neuroscience05 social sciencesCognitionElectroencephalographySomatosensory CortexNeuropsychology and Physiological PsychologyNeurologyTouch PerceptionEmbodied cognitionVisual PerceptionFemalePsychology030217 neurology & neurosurgeryCognitive psychologyPsychophysiologyREFERENCES
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Asymmetry in the human primary somatosensory cortex and handedness.

2003

Brain asymmetry is a phenomenon well known for handedness and language specialization and has also been studied in motor cortex. Less is known about hemispheric asymmetries in the somatosensory cortex. In the present study, we systematically investigated the representation of somatosensory function analyzing early subcortical and cortical somatosensory-evoked potentials (SEP) after electrical stimulation of the right and left median nerve. In 16 subjects, we compared thresholds, the peripheral neurogram at Erb point, and, using MRI-based EEG source analysis, the P14 brainstem component as well as N20 and P22, the earliest cortical responses from the primary sensorimotor cortex. Handedness w…

AdultMaleCognitive NeuroscienceSomatosensory systemLateralization of brain functionFunctional LateralityDichotic Listening TestsEvoked Potentials SomatosensorymedicineBrain asymmetryHumansSound LocalizationLanguagePostcentral gyrusDichotic listeningElectroencephalographySomatosensory CortexElectric StimulationMedian Nervemedicine.anatomical_structureNeurologySomatosensory evoked potentialLateralityFemalePsychologyNeuroscienceAlgorithmsMotor cortexNeuroImage
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Amplitudes of laser evoked potential recorded from primary somatosensory, parasylvian and medial frontal cortex are graded with stimulus intensity

2003

Intensity encoding of painful stimuli in many brain regions has been suggested by imaging studies which cannot measure electrical activity of the brain directly. We have now examined the effect of laser stimulus intensity (three energy levels) on laser evoked potentials (LEPs) recorded directly from the human primary somatosensory (SI), parasylvian, and medial frontal cortical surfaces through subdural electrodes implanted for surgical treatment of medically intractable epilepsy. LEP N2* (early exogenous/stimulus-related potential) and LEP P2** (later endogenous potential) amplitudes were significantly related to the laser energy levels in all regions, although differences between regions w…

AdultMaleLaser-Evoked PotentialsPainStimulus (physiology)Somatosensory systemFunctional LateralityNuclear magnetic resonanceSeizuresReaction TimemedicineNoxious stimulusHumansEvoked potentialElectrodesEvoked PotentialsAnterior cingulate cortexPain MeasurementBrain MappingChemistryLasersDose-Response Relationship RadiationSomatosensory CortexMiddle AgedFrontal LobeElectrophysiologyAnesthesiology and Pain Medicinemedicine.anatomical_structureNeurologySomatosensory evoked potentialFemaleNeurology (clinical)NeurosciencePain
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Dipole source analyses of laser evoked potentials obtained from subdural grid recordings from primary somatic sensory cortex

2011

The cortical potentials evoked by cutaneous application of a laser stimulus (laser evoked potentials, LEP) often include potentials in the primary somatic sensory cortex (S1), which may be located within the subdivisions of S1 including Brodmann areas 3A, 3B, 1, and 2. The precise location of the LEP generator may clarify the pattern of activation of human S1 by painful stimuli. We now test the hypothesis that the generators of the LEP are located in human Brodmann area 1 or 3A within S1. Local field potential (LFP) source analysis of the LEP was obtained from subdural grids over sensorimotor cortex in two patients undergoing epilepsy surgery. The relationship of LEP dipoles was compared wi…

AdultMaleLaser-Evoked PotentialsPhysiologySubdural SpaceStimulus (physiology)Somatosensory systemlaw.inventionYoung AdultlawEvoked Potentials SomatosensorymedicineHumansSubdural spaceDipole sourcePhysicsLasersGeneral NeuroscienceElectric ConductivityArticlesSomatosensory CortexCutaneous applicationLaserElectric StimulationElectrodes Implantedmedicine.anatomical_structurePrimary somatic sensory cortexFemaleNeuroscienceJournal of Neurophysiology
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