Search results for "theta oscillations"

showing 6 items of 6 documents

Differential contributions of the two human cerebral hemispheres to action timing

2019

Rhythmic actions benefit from synchronization with external events. Auditory-paced finger tapping studies indicate the two cerebral hemispheres preferentially control different rhythms. It is unclear whether left-lateralized processing of faster rhythms and right-lateralized processing of slower rhythms bases upon hemispheric timing differences that arise in the motor or sensory system or whether asymmetry results from lateralized sensorimotor interactions. We measured fMRI and MEG during symmetric finger tapping, in which fast tapping was defined as auditory-motor synchronization at 2.5 Hz. Slow tapping corresponded to tapping to every fourth auditory beat (0.625 Hz). We demonstrate that t…

0301 basic medicineAdultMaleQH301-705.5ScienceSensory systemBiologyAuditory cortexGeneral Biochemistry Genetics and Molecular BiologyLateralization of brain functionTimeFingers03 medical and health sciencesMotionYoung Adult0302 clinical medicineRhythmddc:150Humanslateralizationauditory cortexBiology (General)theta oscillationsCerebrumhand motor controlbeta partial directed coherenceGeneral Immunology and MicrobiologyGeneral NeuroscienceQMotor CortexRMagnetoencephalographyGeneral MedicineMagnetic Resonance Imagingfinger tapping030104 developmental biologyAction (philosophy)Acoustic StimulationFinger tappingTappingMedicineFemaleNeuroscienceBeat (music)030217 neurology & neurosurgeryPsychomotor PerformanceResearch ArticleNeuroscienceHumaneLife

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Multimodal determinants of phase-locked dynamics across deep-superficial hippocampal sublayers during theta oscillations

2020

Theta oscillations play a major role in temporarily defining the hippocampal rate code by translating behavioral sequences into neuronal representations. However, mechanisms constraining phase timing and cell-type-specific phase preference are unknown. Here, we employ computational models tuned with evolutionary algorithms to evaluate phase preference of individual CA1 pyramidal cells recorded in mice and rats not engaged in any particular memory task. We applied unbiased and hypothesis-free approaches to identify effects of intrinsic and synaptic factors, as well as cell morphology, in determining phase preference. We found that perisomatic inhibition delivered by complementary populations…

0301 basic medicineMaleneural circuits.Patch-Clamp TechniquesGeneral Physics and AstronomyAction PotentialsHippocampal formationCell morphologySettore BIO/09 - Fisiologia0302 clinical medicineTheta Rhythmlcsh:ScienceBiophysical modelPhysicsNeurons0303 health sciencesComputational modelMultidisciplinaryBiología molecularPyramidal CellsQDynamics (mechanics)Theta oscillationsFemaleAlgorithmsScienceNeurocienciasModels NeurologicalPhase (waves)Mice TransgenicNeural circuitsGeneral Biochemistry Genetics and Molecular BiologyArticle03 medical and health sciencesGlutamatergicMemory taskAnimalsComputer SimulationRats WistarCA1 Region Hippocampal030304 developmental biologyGeneral ChemistryMice Inbred C57BLKinetics030104 developmental biologySynapseslcsh:QNeuroscience030217 neurology & neurosurgeryBiophysical models

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Behavioral and Electrophysiological Arguments in Favor of a Relationship between Impulsivity, Risk-Taking, and Success on the Iowa Gambling Task

2019

The aim of the present study was to investigate the relationship between trait impulsivity, risk-taking, and decision-making performance. We recruited 20 healthy participants who performed the Iowa Gambling Task (IGT) and the Balloon Analog Risk Task (BART) to measure decision-making and risk-taking. The impulsivity was measured by the Barratt Impulsiveness Scale. Resting-state neural activity was recorded to explore whether brain oscillatory rhythms provide important information about the dispositional trait of impulsivity. We found a significant correlation between the ability to develop a successful strategy and the propensity to take more risks in the first trials of the BART. Risk-taki…

050103 clinical psychologyimpulsivityImpulsivityArticlelcsh:RC321-571Task (project management)Correlation03 medical and health sciences0302 clinical medicineBarratt Impulsiveness Scalemedicine0501 psychology and cognitive sciencestheta oscillationslcsh:Neurosciences. Biological psychiatry. Neuropsychiatryrisk-takingGeneral Neuroscience05 social sciencesIGTCognitiondecision-makingIowa gambling taskTraitBARTmedicine.symptomPsychologyRisk taking030217 neurology & neurosurgeryClinical psychologyBrain Sciences

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Influence of cognitive-motor expertise on brain dynamics of anticipatory-based outcome processing.

2019

Motor experience plays an important role in the ability to anticipate action outcomes, but little is known about the brain processes through which it modulates the preparation for unexpected events. To address this issue, EEG was employed while table tennis players and novices observed videos of serves in order to predict the expected ball direction based on the kinematics of a model's movement. Furthermore, we manipulated the congruency between the model's body kinematics and the subsequent ball trajectory while assessing the cerebral cortical activity of novices and experts to understand how experts respond to unexpected outcomes. Experts were more accurate in predicting the ball trajecto…

AdultMaleAdolescentCognitive NeuroscienceTheta activityMotion PerceptionPrefrontal CortexExperimental and Cognitive PsychologyKinematicsElectroencephalography050105 experimental psychology03 medical and health sciencesYoung Adult0302 clinical medicineDevelopmental NeurosciencemedicineNeural systemMiddle frontal gyrusHumans0501 psychology and cognitive sciencesTheta RhythmBiological Psychiatrymedicine.diagnostic_testEndocrine and Autonomic SystemsGeneral Neuroscience05 social sciencesCognitionElectroencephalographyAnticipation PsychologicalAdaptation PhysiologicalTheta oscillationsNeuropsychology and Physiological PsychologyUnexpected eventsNeurologyPractice PsychologicalSpace PerceptionFemalePsychology030217 neurology & neurosurgeryPsychomotor PerformanceCognitive psychologyPsychophysiologyREFERENCES

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An update to Hippocampome.org by integrating single-cell phenotypes with circuit function in vivo.

2021

Understanding brain operation demands linking basic behavioral traits to cell-type specific dynamics of different brain-wide subcircuits. This requires a system to classify the basic operational modes of neurons and circuits. Single-cell phenotyping of firing behavior during ongoing oscillations in vivo has provided a large body of evidence on entorhinal–hippocampal function, but data are dispersed and diverse. Here, we mined literature to search for information regarding the phase-timing dynamics of over 100 hippocampal/entorhinal neuron types defined in Hippocampome.org. We identified missing and unresolved pieces of knowledge (e.g., the preferred theta phase for a specific neuron type) a…

DYNAMICSGABAERGIC INTERNEURONPhysiologyAction PotentialsSocial SciencesHippocampal formationHippocampusNeuron typesBehavioral traitsMice0302 clinical medicineAnimal CellsMedicine and Health SciencesEntorhinal CortexPsychologyNETWORKBiology (General)Function (engineering)media_commonNeurons0303 health sciencesPHYSIOLOGICAL-PROPERTIESGeneral NeurosciencePyramidal CellsMethods and ResourcesBrainPhenotypeMOSSY CELLS3. Good healthElectrophysiologyPhenotypeAnatomyCellular TypesGeneral Agricultural and Biological SciencesGanglion CellsHeuristic (computer science)QH301-705.5media_common.quotation_subjectNeurophysiologyBiologyMembrane PotentialGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesAnimalsin vivo -menetelmähippokampus030304 developmental biologyBehaviorNeuron typeGeneral Immunology and MicrobiologyGranule CellsTHETA OSCILLATIONShermoverkot (biologia)Biology and Life SciencesCell BiologyNeuronal DendritesSILICON PROBESRatshermosolutBrain stateCellular Neuroscience1182 Biochemistry cell and molecular biologyfenotyyppi3111 BiomedicineNeuroscience030217 neurology & neurosurgeryNeurosciencePLoS biology

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Boosting working memory with accelerated clocks

2021

Our perception of time varies with the degree of cognitive engagement in tasks. The perceived passage of time accelerates while working on demanding tasks, whereas time appears to drag during boring situations. Our experiment aimed at investigating whether this relationship is mutual: Can manipulated announcements of elapsed time systematically affect the attentional resources applied to a cognitive task? We measured behavioral performance and the EEG in a whole report working memory paradigm with six items of different colors that each had to be reported after a short delay period. The 32 participants were informed about the current time after each 20 trials, while the clock was running at…

Subjective timepassagePosterior alphaFrontal thetaAdultMaleBoosting (machine learning)Computer scienceCognitive NeuroscienceClock rateElectroencephalography050105 experimental psychologylcsh:RC321-57103 medical and health sciencesYoung Adult0302 clinical medicineEncoding (memory)Task engagementsubjective timepassage ; posterior alpha ; frontal theta ; time perception ; CDA ; working memory ; task engagementmedicineHumans0501 psychology and cognitive sciencesEffects of sleep deprivation on cognitive performancelcsh:Neurosciences. Biological psychiatry. Neuropsychiatrymedicine.diagnostic_testWorking memory05 social sciencesWorking memoryBrainCognitionElectroencephalographyTime perceptionTheta oscillationsMemory Short-TermNeurologyCovertTime PerceptionFemale030217 neurology & neurosurgeryCognitive psychology

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