Search results for "Neuronal Plasticity"

showing 10 items of 166 documents

Secondary tactile hypoesthesia: a novel type of pain-induced somatosensory plasticity in human subjects

2004

Quantitative sensory testing revealed that pain induced by intracutaneous capsaicin injection elicited secondary hyperalgesia coexisting with secondary tactile hypoesthesia. Mapping the areas of altered mechanical sensations adjacent to the capsaicin injection disclosed that the area of secondary hyperalgesia was always nested in a larger area of secondary hypoesthesia easily detected as numbness by most subjects. Psychometric functions revealed a twofold rightward shift of tactile detection (hypoesthesia), which coexisted with a more than fourfold leftward shift of pricking pain detection (hyperalgesia) in the same skin area. As a mechanism we propose a functional switch at the spinal leve…

AdultMaleAdolescentPresynaptic TerminalsPainNeurological disorderSomatosensory systemSynaptic TransmissionHypesthesiachemistry.chemical_compoundmedicineHumansNeurons AfferentSkinAfferent PathwaysNerve Fibers UnmyelinatedNeuronal PlasticityGeneral NeuroscienceNociceptorsPeripheral Nervous System DiseasesNeural InhibitionHypoesthesiaMiddle Agedmedicine.diseaseMechanoreceptorNociceptionmedicine.anatomical_structurechemistryTouchCapsaicinAnesthesiaHyperalgesiaNociceptorFemaleCapsaicinmedicine.symptomPsychologyMechanoreceptorsNeuroscienceNeuroscience Letters
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Left insular cortex and left SFG underlie prismatic adaptation effects on time perception: Evidence from fMRI

2014

Prismatic adaptation (PA) has been shown to affect left-to-right spatial representations of temporal durations. A leftward aftereffect usually distorts time representation toward an underestimation, while rightward aftereffect usually results in an overestimation of temporal durations. Here, we used functional magnetic resonance imaging (fMRI) to study the neural mechanisms that underlie PA effects on time perception. Additionally, we investigated whether the effect of PA on time is transient or stable and, in the case of stability, which cortical areas are responsible of its maintenance. Functional brain images were acquired while participants (n = 17) performed a time reproduction task an…

AdultMaleAdolescentgenetic structuresCognitive NeurosciencePrefrontal CortexPosterior parietal cortexBrain mappingYoung AdultFigural AftereffectNeuroplasticitymedicineHumansSPACEPrismatic adaptationPrefrontal cortexFUNCTIONAL MAGNETIC RESONANCE IMAGING (FMRI)Cerebral CortexBrain MappingEvidence-Based MedicineNeuronal PlasticitySettore M-PSI/02 - Psicobiologia E Psicologia Fisiologicamedicine.diagnostic_testWorking memoryHemispatial neglectSpatial representation of timeTime perceptionAdaptation PhysiologicalMagnetic Resonance ImagingTIMENeurologySpace PerceptionFMRITime PerceptionFemaleNerve Netmedicine.symptomPsychologyFunctional magnetic resonance imagingNeuroscienceNeuroImage
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Learning-induced neural plasticity of speech processing before birth

2013

Learning, the foundation of adaptive and intelligent behavior, is based on plastic changes in neural assemblies, reflected by the modulation of electric brain responses. In infancy, auditory learning implicates the formation and strengthening of neural long-term memory traces, improving discrimination skills, in particular those forming the prerequisites for speech perception and understanding. Although previous behavioral observations show that newborns react differentially to unfamiliar sounds vs. familiar sound material that they were exposed to as fetuses, the neural basis of fetal learning has not thus far been investigated. Here we demonstrate direct neural correlates of human fetal l…

AdultMaleAuditory perceptionmedicine.medical_specialtySpeech perceptionMULTIFEATURE MMN PARADIGMBrain activity and meditation515 PsychologyAuditory learningeducationMismatch negativityLANGUAGEEVENT-RELATED POTENTIALSAudiologyPRINCIPAL-COMPONENTS-ANALYSISYoung Adult03 medical and health sciencesFetus0302 clinical medicineNeural ensembleMemoryPhoneticsPregnancyotorhinolaryngologic diseasesmedicineHumansLearning030304 developmental biology0303 health sciencesNeural correlates of consciousnessPERCEPTIONNeuronal PlasticityMultidisciplinaryBRAIN RESPONSESInfant NewbornElectroencephalographyBiological SciencesSpeech processingHUMAN-FETUSAcoustic StimulationDISCRIMINATIONSpeech Perceptionmismatch negativityFemalePHONEME REPRESENTATIONSPsychology030217 neurology & neurosurgeryCognitive psychology
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Effects of high-frequency repetitive transcranial magnetic stimulation of primary motor cortex on laser-evoked potentials in migraine.

2010

The aim of this study was to examine the effects of high-frequency (HF) repetitive transcranial magnetic stimulation (rTMS) of the left primary motor cortex (M1) on subjective pain and evoked responses induced by laser stimulation (LEPs) of the contralateral hand and supraorbital zone in a cohort of migraine patients without aura during the inter-critical phase, and to compare the effects with those of non-migraine healthy controls. Thirteen migraine patients and 12 sex- and age-matched controls were evaluated. Each rTMS session consisted of 1,800 stimuli at a frequency of 5 Hz and 90% motor threshold intensity. Sham (control) rTMS was performed at the same stimulation position. The vertex …

AdultMaleLaser-Evoked PotentialsOriginalMagnetic Field TherapyMigraine DisordersRepetitive transcranial magnetic stimulationmedicine.medical_treatmentClinical NeurologyPainStimulationbehavioral disciplines and activitiesCohort StudiesYoung AdultElectromagnetic FieldsHumansPain ManagementMedicineTrigeminal NerveEvoked potentialEvoked PotentialsMigraineTrigeminal nerveNeuronal Plasticitybusiness.industryLasersLaser-evoked potentialsGeneral Medicinemedicine.diseaseTranscranial Magnetic StimulationLaser-evoked potentialTranscranial magnetic stimulationAnesthesiology and Pain Medicinemedicine.anatomical_structureMigraineAnesthesiaMotor cortexFemaleMigraine; Laser-evoked potentials; Motor cortex ; Repetitive transcranial magnetic stimulationSettore MED/26 - NeurologiaNeurology (clinical)Primary motor cortexbusinessMotor cortex
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Plasticity of brain wave network interactions and evolution across physiologic states

2015

Neural plasticity transcends a range of spatio-temporal scales and serves as the basis of various brain activities and physiologic functions. At the microscopic level, it enables the emergence of brain waves with complex temporal dynamics. At the macroscopic level, presence and dominance of specific brain waves is associated with important brain functions. The role of neural plasticity at different levels in generating distinct brain rhythms and how brain rhythms communicate with each other across brain areas to generate physiologic states and functions remains not understood. Here we perform an empirical exploration of neural plasticity at the level of brain wave network interactions repre…

AdultMaleNerve netCognitive NeuroscienceNeuroscience (miscellaneous)Sensory systemPlasticityCognitive neurosciencelcsh:RC321-571Young AdultCellular and Molecular NeuroscienceNeuroplasticitymedicineHumanslcsh:Neurosciences. Biological psychiatry. NeuropsychiatryOriginal ResearchSlow-wave sleepCerebral CortexNetwork physiologySleep StagesNeuronal PlasticityBrain WaveBrain wave interactions; Network physiology; Neural plasticity; Sleep; Time delay stability; Adult; Brain Waves; Cerebral Cortex; Female; Humans; Male; Nerve Net; Neuronal Plasticity; Sleep; Young Adult; Neuroscience (miscellaneous); Cellular and Molecular Neuroscience; Sensory Systems; Cognitive NeuroscienceNetwork dynamicsBrain WavesSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)Sensory Systemsbrain wave interactionsmedicine.anatomical_structureBrain wave interactionFemaletime delay stabilityNerve NetSensory SystemPsychologySleepNeuroscienceHumanNeuroscienceneural plasticityFrontiers in Neural Circuits
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Perceptual correlates of nociceptive long-term potentiation and long-term depression in humans.

2004

Long-term potentiation (LTP) and long-term depression (LTD) of synaptic strength are ubiquitous mechanisms of synaptic plasticity, but their functional relevance in humans remains obscure. Here we report that a long-term increase in perceived pain to electrical test stimuli was induced by high-frequency electrical stimulation (HFS) (5 × 1 sec at 100 Hz) of peptidergic cutaneous afferents (27% above baseline, undiminished for >3 hr). In contrast, a long-term decrease in perceived pain (27% below baseline, undiminished for 1 hr) was induced by low-frequency stimulation (LFS) (17 min at 1 Hz). Pain testing with punctate mechanical probes (200 μm diameter) in skin adjacent to the HFS–LFS con…

AdultMalePain ThresholdLong-Term PotentiationPainStimulationNeocortexBehavioral/Systems/CognitiveHippocampusSensitivity and SpecificitySynaptic TransmissionConditioning PsychologicalmedicineHumansLong-term depressionPain MeasurementSkinAnalysis of VarianceHypoalgesiaNeuronal Plasticityintegumentary systemGeneral NeuroscienceLong-Term Synaptic DepressionNociceptorsLong-term potentiationMiddle AgedElectric StimulationForearmAllodyniaNociceptionSpinal CordSynaptic plasticityHyperalgesiaFemalemedicine.symptomPsychologyNeuroscienceThe Journal of neuroscience : the official journal of the Society for Neuroscience
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TMS activation of interhemispheric pathways between the posterior parietal cortex and the contralateral motor cortex

2016

Using a twin coil transcranial magnetic stimulation (tc-TMS) approach we have previously demonstrated that facilitation may be detected in the primary motor cortex (M1) following stimulation over the ipsilateral caudal intraparietal sulcus (cIPS). Here we tested the interhemispheric interactions between the IPS and the contralateral motor cortex (M1). We found that conditioning the right cIPS facilitated contralateral M1 when the conditioning stimulus had an intensity of 90% resting motor threshold (RMT) but not at 70% or 110% RMT. Facilitation was maximal when the interstimulus interval (ISI) between cIPS and M1 was 6 or 12 ms. These facilitatory effects were mediated by interactions with …

AdultMalePhysiologyLong-Term Potentiationrhesus monkeyhuman corpus-callosumNONeural Pathwayanterior intraparietal areaParietal LobeNeural PathwaysHumansworld monkeysNeuronal PlasticityMotor Cortexdorsal premotorconnectionsTranscranial Magnetic StimulationinhibitionTranscranial magnetic stimulation; anterior intraparietal area; human corpus-callosum; dorsal premotor; online adjustments; rhesus monkey; world monkeys; humans; connections; inhibition; TMSparietal cortexinterhemisphericTMSonline adjustmentsFemaleSettore MED/26 - NeurologiaMotor Cortex; Humans; Neural Pathways; Adult; Neuronal Plasticity; Transcranial Magnetic Stimulation; Parietal Lobe; Long-Term Potentiation; Nerve Net; Male; FemaleNerve NetNeuroscienceHuman
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Voxel-based morphometry depicts central compensation after vestibular neuritis.

2010

Objective Patients who have had vestibular neuritis (VN) show a remarkable clinical improvement especially in gait and posture >6 months after disease onset. Methods Voxel-based morphometry was used to detect the VN-induced changes in gray and white matter by means of structural magnetic resonance imaging. Twenty-two patients were compared an average 2.5 years after onset of VN to a healthy sex-and age-matched control group. Results Our analysis revealed that all patients had signal intensity increases for gray matter in the medial vestibular nuclei and the right gracile nucleus and for white matter in the area of the pontine commissural vestibular fibers. A relative atrophy was observed in…

AdultMaleSensory systemVestibular NerveSomatosensory systemHippocampusSeverity of Illness IndexWhite matterVestibular nucleiAdaptation PsychologicalNeural PathwaysmedicineImage Processing Computer-AssistedHumansVestibular NeuronitisAgedVestibular systemNeuronal PlasticityProprioceptionGracile nucleusBrainAnatomyVoxel-based morphometryMiddle AgedMagnetic Resonance Imagingmedicine.anatomical_structureNeurologyFemaleNeurology (clinical)AtrophyPsychologyAnnals of neurology
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Psychophysics, flare, and neurosecretory function in human pain models: capsaicin versus electrically evoked pain.

2007

Intradermal capsaicin injection (CAP) and electrical current stimulation (ES) are analyzed in respect to patterns and test-retest reliability of pain as well as sensory and neurosecretory changes. In 10 healthy subjects, 2 CAP (50 g) and 2 ES (5 to 30 mA) were applied to the volar forearm. The time period between 2 identical stimulations was about 4 months. Pain ratings, areas of mechanical hyperalgesia, and allodynia were assessed. The intensity of sensory changes was quantified by using quantitative sensory testing. Neurogenic flare was assessed by using laser Doppler imaging. Calcito- nin gene-related peptide (CGRP) release was quantified by dermal microdialysis in combination with an en…

AdultMaleTime FactorsSensory Receptor CellsCalcitonin Gene-Related PeptideModels NeurologicalPainStimulationSensory systemCalcitonin gene-related peptidechemistry.chemical_compoundmedicineNoxious stimulusLaser-Doppler FlowmetryPsychophysicsHumansPain MeasurementSkinNerve Fibers UnmyelinatedNeuronal Plasticitybusiness.industryNociceptorsMiddle AgedNeurosecretory SystemsElectric StimulationPeripheralAnesthesiology and Pain MedicineAllodyniaNeurologychemistryCapsaicinHyperalgesiaRegional Blood FlowAnesthesiaHyperalgesiaFemaleNeurology (clinical)medicine.symptomCapsaicinInflammation MediatorsbusinessThe journal of pain
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Prism adaptation by mental practice

2012

International audience; The prediction of our actions and their interaction with the external environment is critical for sensorimotor adaptation. For instance, during prism exposure, which deviates laterally our visual field, we progressively correct movement errors by combining sensory feedback with forward model sensory predictions. However, very often we project our actions to the external environment without physically interacting with it (e.g., mental actions). An intriguing question is whether adaptation will occur if we imagine, instead of executing, an arm movement while wearing prisms. Here, we investigated prism adaptation during mental actions. In the first experiment, participa…

AdultMaleVisual perceptionMovementCognitive NeuroscienceExperimental and Cognitive PsychologyAdaptation (eye)Sensory systemDevelopmental psychologyYoung AdultMotor imageryFeedback SensoryHumans[SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Neuronal PlasticityProprioceptionProprioceptionAdaptation PhysiologicalVisual fieldNeuropsychology and Physiological PsychologyPrism adaptationPractice Psychological[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]ImaginationVisual Perception[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]FemalePrismVisual FieldsPsychologyPrism adaptationPsychomotor PerformanceCognitive psychologyCortex
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