Neural Bases of Cognitive ERPs: More than Phase Reset

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Neural Bases of Cognitive ERPs: More than Phase Reset

Juergen Fell and Thomas Dietl

University of Bonn, Germany

Thomas Grunwald

University of Bonn, Germany
Swiss Epilepsy Centre, Zurich, Switzerland

Martin Kurthen, Peter Klaver, Peter Trautner, Carlo Schaller and Christian E. Elger

University of Bonn, Germany

Guillén Fernández

University of Bonn, Germany
F.C. Donders Center for Cognitive Neuroimaging, Nijmegen, The Netherlands

Up to now, two conflicting theories have tried to explain thegenesis of averaged event-related potentials (ERPs): Whereasone hypothesis claims that ERPs originate from an event-relatedactivation of neural assemblies distinct from background dynamics,the other hypothesis states that ERPs are produced by phaseresetting of ongoing oscillatory activity. So far, this questionhas only been addressed for early ERP components. Late ERP components,however, are generally thought to represent superimposed activitiesof several anatomically distinct brain areas. Thus, the questionof which mechanism underlies the genesis of late ERP componentscannot be easily answered based on scalp recordings. In contrast,two well-investigated late ERP components recorded invasivelyfrom within the human medial temporal lobe (MTL) in epilepsypatients, the so-called MTL-P300 and the anterior MTL-N400 (AMTL-N400),are based on single source activity. Hence, we investigatedwhether the MTL-P300 and the AMTL-N400 are based on an event-relatedactivity increase, a phase reset of ongoing oscillatory activityor both. ERPs were recorded from the hippocampus and rhinalcortex in subjects performing a visual oddball paradigm anda visual word recognition paradigm. With wavelet techniques,stimulus-related phase-locking and power changes were analyzedin a frequency range covering 2 to 48 Hz. We found that theMTL-P300 is accompanied by both phase reset and power increaseand that both effects overlap partly in time. In contrast, theAMTL-N400 is initially associated with phase locking withoutpower increase and only later during the course of the AMTL-N400we observed an additional power increase. In conclusion, bothaspects, event-related activation of neural assemblies and phaseresetting of ongoing activity seem to be involved in the generationof late ERP components as recorded in cognitive tasks. Therefore,separate analysis of event-related power and phase-locking changesmight reveal specific insights into the mechanisms underlyingdifferent cognitive functions.

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