Reduction in event-related alpha attenuation during performance of an auditory oddball task in schizophrenia.

EEG frequency-domain analyses have demonstrated that cognitive performance produces a reduction in alpha activity, i.e., alpha attenuation, such as event-related desynchronization (ERD), reflecting brain activation. To examine whether schizophrenic patients have abnormalities in frequency-domain, event-related alpha attenuation, as well as in time-domain EEG phenomena, such as event-related potential, we compared alpha power change and P300 elicited simultaneously in response to the presentation of target tones in an auditory oddball paradigm between patients with schizophrenia and normal control subjects. In both patients and controls, alpha power was smaller during the time window of 512 ms following targets than following non-targets, particularly at the parietal and the posterior temporal locations (Pz, T5, and T6). The size of alpha attenuation measured as percent reduction in alpha power produced by targets relative to non-targets was smaller in patients than in controls at the posterior temporal locations. The size of alpha attenuation showed no correlation with P300 amplitude or latency in either patients or controls. Furthermore, in patients, the size of alpha attenuation showed no correlation with symptom severity, while P300 amplitude was correlated negatively with the positive subscale score of the Positive and Negative Syndrome Scale. These findings suggest that the symptom-independent reduction in event-related alpha attenuation in schizophrenia may be useful as an electrophysiological index of the impairment of neural processes distinct from that indexed by symptom-dependent P300 abnormalities.