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RATIONALE: Biased processing of drug-associated stimuli is believed to be a crucial feature of addiction. Particularly, an attentional bias seems to contribute to the disorder's maintenance. Recent studies suggest differential effects for stimuli associated with the beginning (BEGIN-smoking-stimuli) or the terminal stage of the smoking ritual (END-smoking-stimuli), with the former but not the later evoking high cue-reactivity. OBJECTIVE: The current study investigated the neuronal network underlying an attentional bias to BEGIN-smoking-stimuli and END-smoking-stimuli in smokers and tested the hypothesis that the attentional bias is greater for BEGIN-smoking-stimuli. METHODS: Sixteen non-deprived smokers and 16 non-smoking controls participated in an fMRI study. Drug pictures (BEGIN-smoking-stimuli, END-smoking-stimuli) and control pictures were overlaid with geometrical figures and presented for 300 ms. Subjects had to identify picture content (identification-task) or figure orientation (distraction-task). The distraction-task was intended to demonstrate attentional bias. RESULTS: Behavioral data revealed an attentional bias to BEGIN-smoking-stimuli but not to END-smoking-stimuli in both groups. However, only smokers showed mesocorticolimbic deactivations in the distraction-task with BEGIN-smoking-stimuli. Importantly, these deactivations were significantly stronger for BEGIN- than for END-smoking-stimuli and correlated with the attentional bias score. CONCLUSIONS: Several explanations may account for missing group differences in behavioral data. Brain data suggest smokers using regulatory strategies in response to BEGIN-smoking-stimuli to prevent the elicitation of motivational responses interfering with distraction-task performance. These strategies could be reflected in the observed deactivations and might lead to a performance level in smokers that is similar to that of non-smokers.
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Event-related functional magnetic resonance imaging was applied to identify cortical areas involved in maintaining target information in working memory used for an upcoming grasping action. Participants had to grasp with their thumb and index finger of the dominant right hand three-dimensional objects of different size and orientation. Reaching-to-grasp movements were performed without visual feedback either immediately after object presentation or after a variable delay of 2-12 s. The right inferior parietal cortex demonstrated sustained neural activity throughout the delay, which overlapped with activity observed during encoding of the grasp target. Immediate and delayed grasping activated similar motor-related brain areas and showed no differential activity. The results suggest that the right inferior parietal cortex plays an important functional role in working memory maintenance of grasp-related information. Moreover, our findings confirm the assumption that brain areas engaged in maintaining information are also involved in encoding the same information, and thus extend previous findings on working memory function of the posterior parietal cortex in saccadic behavior to reach-to-grasp movements.
Erkunden
Team
- Vaitl (2)
Eintragsart
Sprache
- Englisch (2)
Thema
- Visual Perception/physiology
- Adult (2)
- Attention/*physiology (1)
- Behavior, Addictive/*physiopathology (1)
- Brain Mapping (1)
- Brain Mapping/methods/*psychology (1)
- Cerebral Cortex/*physiopathology (1)
- Cues (1)
- Female (1)
- Hand Strength/*physiology (1)
- Humans (2)
- Image Processing, Computer-Assisted (1)
- Limbic System/*physiopathology (1)
- Magnetic Resonance Imaging (1)
- Magnetic Resonance Imaging/methods/psychology (1)
- Male (2)
- Memory, Short-Term/*physiology (1)
- Motor Cortex/physiology (1)
- Neural Inhibition/*physiology (1)
- Neural Pathways/physiopathology (1)
- Orientation/physiology (1)
- Oxygen/blood (1)
- Parietal Lobe/*physiology (1)
- Photic Stimulation/methods (1)
- Psychomotor Performance/*physiology (1)
- Smoking/*physiopathology/psychology (1)
- Somatosensory Cortex/physiology (1)
- Space Perception/*physiology (1)
- Supine Position/physiology (1)
- Visual Cortex/physiology (1)
- Young Adult (1)