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ABSTRACT: Memory-guided decision making is dynamic and context-dependent, even though many studies describe an enhancement of the P3 for recognized items in memory tasks ("old-new effect"). This study utilized a delay-dependent working memory task during which decision making could be optimized by focusing attention on detected changes instead of recognized similarities. Mean P3 amplitude and delta activity were analyzed from participants who classified probe stimuli as identical or modified. The P3 amplitudes were larger for modified than for identical probes, even when the probe occurred 4,000 ms after the primary stimulus. Enhanced single-trial amplitude, trial-by-trial consistency, and frontoparietal phase coherence of delta activity contributed to the larger P3 for the modified probe. Thus, context-dependent attentional resource allocation supporting memory-guided decisions might explain the enhancement of the P3 for specific probe types.
Psychophysiology 04/2012; 49(7):920-32. · 3.29 Impact Factor
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ABSTRACT: ERPs may be limited in validity when investigating inhibitory functions in later adulthood, as age-related increases in intraindividual variability and changes in EEG-oscillations are not considered. The present study compared averaged ERP peak and single trial time-frequency (TF) data analysis.
Go/NoGo ERP waves amplitude/latency measures were compared with a TF analysis estimating single trial event-related EEG spectral power enhancement and intertrial phase-locking (ITC) in delta and theta band.
Age-related larger ITC was found for theta oscillations in the N2-P3 time range during NoGo, only. Discrepancies between N1/N2 ERP and TF results were obtained. Go/NoGo-P3 amplitude reductions in elderly were not related to an increased delta latency jitter.
Discrepancies between ERPs and TF results challenge conclusions made about age-related changes in Go/NoGo-N2. Earlier reports of age-related changes in P3 are supported by the present results. The study implies age-related impairments in a general neuronal inhibition mechanism and a specific response inhibition mechanism.
The study indicates long-range communication impairments in the aged brain and the results are discussed considering hypotheses on increases in neural noise.
Clinical neurophysiology: official journal of the International Federation of Clinical Neurophysiology 11/2010; 122(6):1156-67. · 3.12 Impact Factor
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ABSTRACT: In the present study we used a simple visual evoked potential and a visual oddball paradigm to investigate alterations in the temporal integration of different frequency components such as alpha and theta oscillations in patients with schizophrenia. We found that neither the amplitude enhancement after stimulus onset nor the intertrial phase coherence was generally reduced in patients, but that the topography of the neural response was altered. While healthy controls elicited their maximum early alpha as well as late theta response over posterior electrode sites, the maximum response in patients was shifted to anterior electrode positions. This result was not found for the late theta response for targets as target processing was accompanied with frontal theta amplitude enhancement in healthy controls as well. The change of the topographical response pattern was mirrored by the intertrial phase coherence in both frequency bands. The findings imply that schizophrenia is related to multiple alterations in oscillatory networks. Even during simple tasks without high cognitive demands dysfunctional mechanisms of temporal and regional coordination appear to be of importance in schizophrenia.
Brain Research 10/2008; 1235:143-52. · 2.73 Impact Factor
