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RESEARCH PRODUCT
Parieto-frontal interactions in visual-object and visual-spatial working memory: Evidence from transcranial magnetic stimulation
Massimiliano OliveriGiovanni Augusto CarlesimoCarlo CaltagironeFrancesco TomaiuoloGiacomo KochMarta PanellaPatrizia Turrizianisubject
AdultMalegenetic structuresCognitive Neurosciencemedicine.medical_treatmentStimulus (physiology)behavioral disciplines and activitiesSpatial memoryNOCellular and Molecular NeuroscienceMemoryParietal LobemedicineHumansPrefrontal cortexAdult; Electric Stimulation; Female; Frontal Lobe; Humans; Male; Memory; Parietal Lobe; Photic Stimulation; Psychomotor Performance; Scalp; Space Perception; Transcranial Magnetic StimulationScalpSettore M-PSI/02 - Psicobiologia E Psicologia FisiologicaWorking memorymusculoskeletal neural and ocular physiologyTranscranial Magnetic StimulationElectric StimulationFrontal LobeDorsolateral prefrontal cortexTranscranial magnetic stimulationmedicine.anatomical_structurenervous systemSuperior frontal gyrusFrontal lobeSpace PerceptionFemaleSettore MED/26 - NeurologiaScalp; Humans; Electric Stimulation; Parietal Lobe; Frontal Lobe; Memory; Photic Stimulation; Adult; Space Perception; Psychomotor Performance; Transcranial Magnetic Stimulation; Female; MalePsychologyNeurosciencepsychological phenomena and processesPhotic StimulationPsychomotor PerformanceHumandescription
This study aimed to investigate whether transcranial magnetic stimulation (TMS) can induce selective working memory (WM) deficits of visual-object versus visual-spatial information in normal humans. Thirty-five healthy subjects performed two computerized visual n-back tasks, in which they were required to memorize spatial locations or abstract patterns. In a first series of experiments, unilateral or bilateral TMS was delivered on posterior parietal and middle temporal regions of both hemispheres after various delays during the WM task. Bilateral temporal TMS increased reaction times (RTs) in the visual-object, whereas bilateral parietal TMS selectively increased RTs in the visual-spatial WM task. These effects were evident at a delay of 300 ms. Response accuracy was not affected by bilateral or unilateral TMS of either cortical region. In a second group of experiments, bilateral TMS was applied over the superior frontal gyrus (SFG) or the dorsolateral prefrontal cortex (DLPFC). TMS of the SFG selectively increased RTs in the visual-spatial WM task, whereas TMS of the DLPFC interfered with both WM tasks, in terms of both accuracy and RTs. These effects were evident when TMS was applied after a delay of 600 ms, but not one of 300 ms. These findings confirm the segregation of WM buffers for object and spatial information in the posterior cortical regions. In the frontal cortex, the DLPFC appears to be necessary for WM computations regardless of the stimulus material.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2001-07-01 |