Search results for "Cortex"

showing 10 items of 1827 documents

Chert Nucleus and Cortex Characterization for Archaeological Provenance Study Tested in the Prebaetic System Region (Valencian Community, Spain)

2019

The characterization of chert artifacts and the identification of their raw material is a pivotal issue in archaeology for the comprehension of economic and territorial patterns related to prehisto...

010506 paleontologyArcheologyProvenance060102 archaeology06 humanities and the arts01 natural sciencesArchaeologyValencian communityPrehistorymedicine.anatomical_structureGeographyAnthropologyCortex (anatomy)medicine0601 history and archaeology0105 earth and related environmental sciencesLithic Technology
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Climatic influence on the growth pattern ofPanthasaurus maleriensisfrom the Late Triassic of India deduced from paleohistology

2020

Metoposaurids are representatives of the extinct amphibian clade Temnospondyli, found on almost every continent exclusively in the Late Triassic deposits. Osteohistologically, it is one of the best-known temnospondyl groups, analyzed with a wide spectrum of methods, such as morphology, morphometry, bone histology or computed modelling. The least known member of Metoposauridae isPanthasaurus maleriensisfrom the Pranhita-Godavari basin in Central India, being geographically the most southern record of this family. For the first time the bone histology of this taxon was studied with a focus on the intraspecific variability of the histological framework and the relationship between the observed…

0106 biological sciencesAmphibian010506 paleontologyHistologyOntogenylcsh:MedicineMetoposaurus010603 evolutionary biology01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyIntraspecific competitionPaleontologyTemnospondyliMetoposauridaebiology.animalCortex (anatomy)medicine0105 earth and related environmental sciencesPanthasaurus maleriensisHistovariabilitybiologyLate triassicGeneral Neurosciencelcsh:RPaleohistologyPaleontologyTemnospondyliClimatic influenceGeneral Medicinebiology.organism_classificationTaxonmedicine.anatomical_structureGeneral Agricultural and Biological SciencesZoologyPeerJ
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Barrel Cortex Function Special Issue Editorial

2018

0301 basic medicine03 medical and health sciences030104 developmental biology0302 clinical medicineEditorialChemistryGeneral NeuroscienceFunction (mathematics)Barrel cortexNeuroscience030217 neurology & neurosurgeryNeuroscience
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Detecting differences with magnetoencephalography of somatosensory processing after tactile and electrical stimuli.

2018

Abstract Background Deviant stimuli within a standard, frequent stimulus train induce a cortical somatosensory mismatch response (SMMR). The SMMR reflects the brain’s automatic mechanism for the detection of change in a somatosensory domain. It is usually elicited by electrical stimulation, which activates nerve fibers and receptors in superficial and deep skin layers, whereas tactile stimulation is closer to natural stimulation and activates uniform fiber types. We recorded SMMRs after electrical and tactile stimuli. Method 306-channel magnetoencephalography recordings were made with 16 healthy adults under two conditions: electrical (eSMMR) and tactile (tSMMR) stimulations. The SMMR proto…

0301 basic medicineAdultMaleAdolescenthuman sensory cortexStimulationStimulus (physiology)Somatosensory systemta3112Tactile stimulikosketusaisti03 medical and health sciencesYoung Adult0302 clinical medicineEvoked Potentials SomatosensoryPhysical StimulationmedicineHumansaivotutkimuscutaneous nerve stimulationSensory stimulation therapyMEGmedicine.diagnostic_testbusiness.industryfunctional brain imagingGeneral NeuroscienceMagnetoencephalographySignal Processing Computer-AssistedMagnetoencephalographySomatosensory Cortexmismatch responseElectric StimulationLong latency030104 developmental biologyTouch Perceptiontactile stimulationFemalebusinessNeuroscienceTactile processing030217 neurology & neurosurgeryärsykkeetJournal of neuroscience methods
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Cognitive network hyperactivation and motor cortex decline correlate with ALS prognosis.

2021

We aimed to quantitatively characterize progressive brain network disruption in Amyotrophic Lateral Sclerosis (ALS) during cognition using the mismatch negativity (MMN), an electrophysiological index of attention switching. We measured the MMN using 128-channel EEG longitudinally (2-5 timepoints) in 60 ALS patients and cross-sectionally in 62 healthy controls. Using dipole fitting and linearly constrained minimum variance beamforming we investigated cortical source activity changes over time. In ALS, the inferior frontal gyri (IFG) show significantly lower baseline activity compared to controls. The right IFG and both superior temporal gyri (STG) become progressively hyperactive longitudina…

0301 basic medicineAdultMaleAgingmedicine.medical_specialtyMismatch negativityPrefrontal CortexElectroencephalographyAudiologybehavioral disciplines and activities03 medical and health sciences0302 clinical medicineCognitionmedicineHumansAttentionCognitive DysfunctionAmyotrophic lateral sclerosisAgedAged 80 and overHyperactivationmedicine.diagnostic_testbusiness.industryGeneral NeuroscienceAmyotrophic Lateral SclerosisMotor CortexCognitionElectroencephalographyMiddle Agedmedicine.diseasePrognosisTemporal LobeElectrophysiology030104 developmental biologymedicine.anatomical_structureCross-Sectional StudiesDisinhibitionFemaleNeurology (clinical)Geriatrics and Gerontologymedicine.symptombusiness030217 neurology & neurosurgeryDevelopmental BiologyMotor cortexNeurobiology of aging
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Intracortical facilitation within the migraine motor cortex depends on the stimulation intensity. A paired-pulse TMS study

2018

Abstract Introduction Connectivity within the primary motor cortex can be measured using the paired-pulse transcranial magnetic stimulation (TMS) paradigm. This evaluates the effect of a first conditioning stimulus on the motor evoked potential (MEP) elicited by a second test stimulus when different interstimulus intervals are used. Aim of the present study was to provide, in patients suffering from migraine without aura (MwoA), additional information on intracortical facilitation (ICF), short intracortical inhibition (SICI), and long intracortical inhibition (LICI), using different intensities of the test stimulus (TS). Methods We enrolled 24 patients with episodic MwoA and 24 age- and sex…

0301 basic medicineAdultMaleMigraine without Auramedicine.medical_specialtyMotor cortex paired pulsemedicine.medical_treatmentRestlcsh:MedicineStimulationAudiologyStimulus (physiology)03 medical and health sciencesYoung Adult0302 clinical medicineHumansMedicineIctalEvoked potentialbusiness.industryElectromyographylcsh:RMotor CortexCortical excitabilityNeural InhibitionGeneral MedicineMiddle Agedmedicine.diseaseEvoked Potentials MotorTranscranial Magnetic StimulationTranscranial magnetic stimulation030104 developmental biologymedicine.anatomical_structureAnesthesiology and Pain MedicineMigraineFemaleNeurology (clinical)Primary motor cortexGlutamatebusiness030217 neurology & neurosurgeryResearch ArticleMotor cortexHuman
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Different Brain Circuitries Mediating Controllable and Uncontrollable Pain.

2015

Uncontrollable, compared with controllable, painful stimulation can lead to increased pain perception and activation in pain-processing brain regions, but it is currently unknown which brain areas mediate this effect. When pain is controllable, the lateral prefrontal cortex (PFC) seems to inhibit pain processing, although it is unclear how this is achieved. Using fMRI in healthy volunteers, we examined brain activation during controllable and uncontrollable stimulation to answer these questions. In the controllable task, participants self-adjusted temperatures applied to their hand of pain or warm intensities to provoke a constant sensation. In the uncontrollable task, the temperature time …

0301 basic medicineAdultMaleNociceptionAdolescentPainPrefrontal CortexStimulus (physiology)AnxietyBrain mappingbehavioral disciplines and activities03 medical and health sciencesYoung Adult0302 clinical medicineSensationmedicineHumansThermosensingPrefrontal cortexAnterior cingulate cortexInternal-External ControlPain MeasurementCerebral CortexBrain MappingGeneral NeuroscienceBrainArticlesMagnetic Resonance ImagingHealthy VolunteersDorsolateral prefrontal cortex030104 developmental biologymedicine.anatomical_structureNociceptionFemaleNerve NetPsychologyInsulaNeuroscience030217 neurology & neurosurgerypsychological phenomena and processesThe Journal of neuroscience : the official journal of the Society for Neuroscience
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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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Right inferior frontal gyrus implements motor inhibitory control via beta-band oscillations in humans

2021

Motor inhibitory control implemented as response inhibition is an essential cognitive function required to dynamically adapt to rapidly changing environments. Despite over a decade of research on the neural mechanisms of response inhibition, it remains unclear, how exactly response inhibition is initiated and implemented. Using a multimodal MEG/fMRI approach in 59 subjects, our results reliably reveal that response inhibition is initiated by the right inferior frontal gyrus (rIFG) as a form of attention-independent top-down control that involves the modulation of beta-band activity. Furthermore, stopping performance was predicted by beta-band power, and beta-band connectivity was directed f…

0301 basic medicineAdultMaleRight inferior frontal gyrusComputer scienceQH301-705.5ScienceBiophysicsPrefrontal Cortexstop signal taskGeneral Biochemistry Genetics and Molecular Biologypre-supplementary motor areastopping03 medical and health sciencesBeta band0302 clinical medicineCognitionInhibitory controlReaction TimeHumansresponse inhibitionBiology (General)Response inhibitionMotor areaGeneral Immunology and MicrobiologyOscillationGeneral NeuroscienceQMotor CortexRMagnetoencephalographyCognitionGeneral MedicineMagnetic Resonance ImagingattentionInhibition Psychological030104 developmental biologyMedicineFemaleBeta RhythmNeuroscience030217 neurology & neurosurgeryPsychomotor PerformanceResearch ArticleNeuroscienceHumaneLife
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Long-term physical activity modulates brain processing of somatosensory stimuli: Evidence from young male twins.

2016

Leisure-time physical activity is a key contributor to physical and mental health. Yet the role of physical activity in modulating cortical function is poorly known. We investigated whether precognitive sensory brain functions are associated with the level of physical activity. Physical activity history (3-yr-LTMET), physiological measures and somatosensory mismatch response (sMMR) in EEG were recorded in 32 young healthy twins. In all participants, 3-yr-LTMET correlated negatively with body fat%, r = −0.77 and positively with VO2max, r = 0.82. The fat% and VO2max differed between 15 physically active and 17 inactive participants. Trend toward larger sMMR was seen in inactive compared to ac…

0301 basic medicineAdultMalehuman electrophysiologyFITNESSMISMATCH NEGATIVITY MMN515 PsychologyPhysical activityMonozygotic twinprecognitive brain functionPhysical exerciseSensory systemCHILDRENGatingElectroencephalographyMotor ActivitySomatosensory system03 medical and health sciences0302 clinical medicinephysical exercisemedicineEVOKED-POTENTIALSHumansHealthy Lifestyleta315Evoked PotentialsExerciseYoung malemedicine.diagnostic_testLATENCYGeneral NeuroscienceMEMORYta3141ADULTSSomatosensory Cortex16. Peace & justice3142 Public health care science environmental and occupational healthta3124030104 developmental biologyNeuropsychology and Physiological PsychologyDISCRIMINATIONFemalePsychologyNeurosciencesomatosensory mismatch response030217 neurology & neurosurgeryRESPONSESBiological psychology
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