Search results for " Inferior frontal gyrus"

showing 6 items of 6 documents

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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Cortical network mechanisms of response inhibition

2020

SummaryBoth the right inferior frontal gyrus (rIFG) and the pre-supplementary motor area (pre-SMA) are crucial for successful response inhibition. However, the particular functional roles of those two regions have been controversially debated for more than a decade now. It is unclear whether the rIFG directly initiates stopping or serves an attentional function, whereas the stopping is triggered by the pre-SMA. The current multimodal MEG/fMRI study sought to clarify the role and temporal activation order of both regions in response inhibition using a selective stopping task. This task dissociates inhibitory from attentional processes. Our results reliably reveal a temporal precedence of rIF…

0303 health sciences03 medical and health sciences0302 clinical medicineMotor areaRight inferior frontal gyrusCortical networkInhibitory postsynaptic potentialPsychologyNeuroscience030217 neurology & neurosurgeryResponse inhibition030304 developmental biology
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Prominence vs. aboutness in sequencing: a functional distinction within the left inferior frontal gyrus

2009

Prior research on the neural bases of syntactic comprehension suggests that activation in the left inferior frontal gyrus (lIFG) correlates with the processing of word order variations. However, there are inconsistencies with respect to the specific subregion within the IFG that is implicated by these findings: the pars opercularisor the pars triangularis. Here, we examined the hypothesis that the dissociation between parsopercularis and pars triangularis activation may reflect functional differences between clause-medial and clause-initial word order permutations, respectively. To this end, we directly compared clause-medial and clause-initial object-before-subject orders in German in a wi…

AdultMaleLinguistics and LanguageDissociation (neuropsychology)Cognitive NeuroscienceExperimental and Cognitive Psychologyleft inferior frontal gyrusLeft inferior frontal gyrusFunctional LateralityLanguage and LinguisticsSpeech and HearingSuperior temporal gyrusHumansPrefrontal cortexaboutnessinformation structureLanguageBrain MappingLanguage TestsfMRICognitionsequencingGermanword orderMagnetic Resonance ImagingFrontal Lobesyntactic processingAboutnesssuperior temporal gyrusprominenceFemaleNerve NetComprehensionPsychologySentenceWord orderCognitive psychology
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Fluency and rule breaking behaviour in the frontal cortex

2020

Design (DF) and phonemic fluency tests (FAS; D-KEFS, 2001) are commonly used to investigate voluntary generation. Despite this, several important issues remain poorly investigated. In a sizeable sample of patients with focal left or right frontal lesion we established that voluntary generation performance cannot be accounted for by fluid intelligence. For DF we found patients performed significantly worse than healthy controls (HC) only on the switch condition. However, no significant difference between left and right frontal patients was found. In contrast, left frontal patients were significantly impaired when compared with HC and right frontal patients on FAS. These lateralization findin…

MaleLIFG Left Inferior Frontal GyrusRAPM Raven's Advanced Progressive MatricesIntelligenceLMFG Left Middle Frontal GyrusLF Left frontalAudiologyCorpus callosumCVA cerebrovascular accidentATR Anterior thalamic radiationExecutive FunctionBehavioral NeurosciencePFC prefrontal cortex0302 clinical medicineVerbal fluency testHC healthy controls10. No inequalityPrefrontal cortexLanguageFASRB Phonemic Fluency Rule Breakfluid intelligenceAged 80 and overfunctionsBrain Diseasesprefrontal cortexBrain Neoplasms05 social sciencesSuperior longitudinal fasciculusGNT Graded Naming TestMiddle AgedStrokemedicine.anatomical_structurePLSM Parcel-based Lesion Symptom MappingDF Design FluencyFluid Intelligence Parcel Based Lesion Symptom Mapping tract-wise statistical analysisFemalemedicine.symptomPsychologyAdultmedicine.medical_specialtyAdolescentCognitive NeuroscienceBrain AbscessExperimental and Cognitive PsychologyGrey matterrule break errorsArticle050105 experimental psychologyLateralization of brain functionLesionWhite matterYoung Adult03 medical and health sciencesexecutivestatistical analysismedicineHumans0501 psychology and cognitive sciencesAgedParcel based lesion symptom mapping tract-wise statistical analysisSettore M-PSI/02 - Psicobiologia E Psicologia Fisiologicaphonemic and design fluencyRL Right lesionparcel based lesion symptom mapping tractwiseLL left lesionIQ Intelligence QuotientVLSM Voxel-based lesion symptom mappingrule break errorNART National Adult Reading TestPsychomotor PerformanceTSA Tract-wise Statistical Analysis030217 neurology & neurosurgeryNeuropsychologia
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Dysfunction of attention switching networks in amyotrophic lateral sclerosis

2019

Objective To localise and characterise changes in cognitive networks in Amyotrophic Lateral Sclerosis (ALS) using source analysis of mismatch negativity (MMN) waveforms. Rationale The MMN waveform has an increased average delay in ALS. MMN has been attributed to change detection and involuntary attention switching. This therefore indicates pathological impairment of the neural network components which generate these functions. Source localisation can mitigate the poor spatial resolution of sensor-level EEG analysis by associating the sensor-level signals to the contributing brain sources. The functional activity in each generating source can therefore be individually measured and investigat…

MaleMismatch negativitySource localisationEEG ElectroencephalographyMismatch negativityNetworkElectroencephalographylcsh:RC346-429PET Positron emission tomographyCognition0302 clinical medicineC9orf72AttentionEEGAUROC Area under receiver operating characteristic curveAmyotrophic lateral sclerosisAged 80 and overmedicine.diagnostic_test05 social sciencesCognitive flexibilityBrainRegular ArticleElectroencephalographyCognitionMiddle AgedSTG Superior temporal gyrusNeurologyMTG Mid temporal gyrusDLPFC Dorsolateral prefrontal cortexlcsh:R858-859.7FemaleLCMV Linearly constrained minimum varianceIFG Inferior frontal gyrusAdultCognitive Neurosciencelcsh:Computer applications to medicine. Medical informatics050105 experimental psychologyCWIT Colour-word interference test03 medical and health sciencesfMRI Functional magnetic resonance imagingMEG MagnetoencephalographymedicineMMN Mismatch negativityHumans0501 psychology and cognitive sciencesRadiology Nuclear Medicine and imagingLS Amyotrophic Lateral SclerosisAAL Automated Anatomical Labellinglcsh:Neurology. Diseases of the nervous systemAEP Auditory evoked potentialAgedbusiness.industryAmyotrophic Lateral SclerosisIQR Interquartile rangeNeurophysiologyqEEG Quantitative EEGmedicine.diseaseNeurology (clinical)Nerve NetFunctional magnetic resonance imagingbusinessNeuroscience030217 neurology & neurosurgeryeLORETA Exact low-resolution brain electromagnetic tomographyNeuroImage: Clinical
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Author response: Right inferior frontal gyrus implements motor inhibitory control via beta-band oscillations in humans

2021

PhysicsBeta bandRight inferior frontal gyrusInhibitory controlNeuroscience
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