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Attentional control during conflict: Causal contributions and interactions of fronto-parietal corties in the human brain

Subject Area Human Cognitive and Systems Neuroscience
Term from 2011 to 2019
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 191208562
 
Final Report Year 2019

Final Report Abstract

We used transcranial magnetic stimulation to perturb the parieto-frontal network for spatial attention. Using the flanker task, we showed that the spatial attention usually recruited for the distracting flanker can actually be reduced, resulting in a better ability to concentrate on the target and thus reduced reaction times and decision rate, by applying TMS pulses to predefined sites in the parietal and frontal cortex at and around parietal P4 and frontal FEF. We could demonstrate that in each cortex and cortical area, there exist an optimal site. Stimulation of these hotspots interferes the strongest with the flanker task in the sense of a strong reduction of the spatial attention allocated to the distracting flanker. The same holds true for the timing in respect to the onset of the visual task at which the pulses are presented and the temporal interaction of the pulses applied to the parietal and frontal hotspots. We could successfully derive on optimal point in time to apply the parietal and frontal pulses and determine which of the two was contributing more to the perturbation, or whether the combination of the two was actually needed. At the same time, the data show a strong variability in respect to both, the exact spatial position of the parietal and frontal hotspots and the exact timing of the best points in time (hottimes), and the interaction. We have not been able to distinguish whether these inter-individual variances stem from a deficiency of the methods with which we localised the frontal and parietal stimulation sites in each cortex or whether they reflect true spatial differences of the underlying cortical sites that contribute to the parieto-frontal attention network, so far. Although the combination of classical on-skull measures (as established for EEG recordings) and video-based frameless stereotaxy is apt to increase our confidence in the quality of the locations, we conclude that more research is needed to resolve these issues.

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