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Theta increases with workload and is associated with numerous processes including working memory, problem solving, encoding, or self monitoring. These processes, in turn, involve numerous structures of the brain. However, the relationship between regional brain activity and the occurrence of theta remains unclear. In the present study, simultaneous EEG-fMRI recordings were used to investigate the functional topography of theta. EEG-theta was enhanced by mental arithmetic-induced workload. For the EEG-constrained fMRI analysis, theta-reference time-series were extracted from the EEG, reflecting the strength of theta occurrence during the time course of the experiment. Theta occurrence was mainly associated with activation of the insular cortex, hippocampus, superior temporal areas, cingulate cortex, superior parietal, and frontal areas. Though observation of temporal and insular activation is in accord with the theory that theta specifically reflects encoding processes, the involvement of several other brain regions implies that surface-recorded theta represents comprehensive functional brain states rather than specific processes in the brain. The results provide further evidence for the concept that emergent theta band oscillations represent dynamic functional binding of widely distributed cortical assemblies, essential for cognitive processing. This binding process may form the source of surface-recorded EEG theta.
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Functional magnetic resonance imaging (fMRI) studies consistently demonstrate an enhanced activation of the visual cortex in reaction to emotionally salient visual stimuli. This increase of activation is probably modulated by top-down processes, that are initiated in emotion processing structures, specifically the amygdala and the orbitofrontal cortex. In the present fMRI study, a differential fear conditioning paradigm was applied to investigate this assumed modulation. Hemodynamic responses towards a neutral visual stimulus (CS+) predicting an electrical stimulation (UCS) were compared with responses towards a neutral and unpaired stimulus (CS-). Thereby, particularly the time courses of neural responses were considered. Skin conductance measures were concurrently recorded. Our results show that the differentiation between CS+ and CS- within the amygdala and the extended visual cortex was accomplished during a late acquisition phase. In the orbitofrontal cortex the differentiation occurred at an earlier stage and was then sustained throughout acquisition. It is suggested that these altering activation patterns are reflecting different phases of learning, integrating the analyzed regions to varying degrees. Additionally, the results indicate that statistical analyses comprising a temporal variation of hemodynamic responses are more likely to detect amygdala activation.
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Team
- Vaitl (2)
Eintragsart
Sprache
Thema
- Cerebrovascular Circulation/*physiology
- Adult (2)
- Amygdala/*blood supply/*physiology (1)
- Biological Clocks/physiology (1)
- Brain/anatomy & histology/blood supply/*physiology (1)
- Brain Mapping/methods (1)
- Cognition/*physiology (1)
- Conditioning, Psychological/*physiology (1)
- Electric Stimulation (1)
- Electroencephalography/methods (1)
- Evoked Potentials/*physiology (1)
- Fear/*physiology (1)
- Female (2)
- Functional Laterality/physiology (1)
- Galvanic Skin Response/physiology (1)
- Hemodynamics/*physiology (1)
- Humans (2)
- Image Processing, Computer-Assisted (1)
- Magnetic Resonance Imaging (1)
- Magnetic Resonance Imaging/methods (1)
- Male (2)
- Mathematics (1)
- Nerve Net/anatomy & histology/physiology (1)
- Neural Pathways/anatomy & histology/*physiology (1)
- Neuropsychological Tests (1)
- Photic Stimulation (1)
- Problem Solving/physiology (1)
- *Theta Rhythm (1)
- Thinking/physiology (1)
- Time Factors (1)
- Visual Cortex/*blood supply/*physiology (1)