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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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This study addresses the controversy over how motor maps are organized during action simulation by examining whether action simulation states, that is, motor imagery and action observation, run on either effector-specific and/or action-specific motor maps. Subjects had to observe or imagine three types of movements effected by the right hand or the right foot with different action goals. The functional magnetic resonance imaging results showed an action-specific organization within premotor and posterior parietal areas of both hemispheres during action simulation, especially during action observation. There were also less pronounced effector-specific activation sites during both simulation processes. It is concluded that the premotor and parietal areas contain multiple motor maps rather than a single, continuous map of the body. The forms of simulation (observation, imagery), the task contexts (movements related to an object, with usual/unusual effector), and the underlying reason for performing the simulation (rate your subjective success afterwards) lead to the specific use of different representational motor maps within both regions. In our experimental setting, action-specific maps are dominant especially, during action observation, whereas effector-specific maps are recruited to only a lesser degree.
Erkunden
Team
- Vaitl (2)
Eintragsart
Sprache
- Englisch (2)
Thema
- Neuropsychological Tests
- action mapping (1)
- action observation (1)
- Adult (2)
- Biological Clocks/physiology (1)
- Brain/anatomy & histology/blood supply/*physiology (1)
- Brain Mapping (1)
- Brain Mapping/methods (1)
- Cerebrovascular Circulation/*physiology (1)
- Cognition/*physiology (1)
- Electroencephalography/methods (1)
- Electromyography (1)
- Evoked Potentials/*physiology (1)
- Female (2)
- fMRI (1)
- Foot/physiology (1)
- Frontal Lobe/*physiology (1)
- Functional Laterality (1)
- Functional Laterality/physiology (1)
- Goals (1)
- Hand/physiology (1)
- Humans (2)
- Imagination/*physiology (1)
- Magnetic Resonance Imaging (1)
- Magnetic Resonance Imaging/methods (1)
- Male (2)
- Mathematics (1)
- Motor Activity/*physiology (1)
- motor imagery (1)
- motor simulation (1)
- Nerve Net/anatomy & histology/physiology (1)
- Neural Pathways/anatomy & histology/*physiology (1)
- Parietal Lobe/*physiology (1)
- Photic Stimulation (1)
- Problem Solving/physiology (1)
- somatotopic mapping (1)
- *Theta Rhythm (1)
- Thinking/physiology (1)
- Time Factors (1)
- Visual Perception/*physiology (1)