Mismatch negativity (MMN) is thought to reveal several abnormalities of cognitive functioning. Although depression often affects cognitive functioning, previous studies concerning MMN in depressed patients provided conflicting results. In recent reports, it has been suggested that depressed patients may show abnormal auditory response to regular auditory stimuli presented with at a relatively high intensity. We thus recorded acoustic MMN in 16 drug-free patients suffering from moderate depression and in 10 healthy subjects at 2 different stimulus intensities. Differences in MMN latency and amplitude between depressed patients and healthy subjects reached the significance level only for high intensity stimulation, and they were consistent with a dysfunction of frontal MMN subcomponents in depressed patients. This finding suggests that consistent MMN abnormalities can be observed in depressed patients by using high-intensity stimulation; moreover, it supports the hypothesis of disturbances of frontal networks in depression even in early stages of disease.
Restuccia, D., Vollono, C., Scaloni, L., Buccelletti, F., Camardese, G., Abnormality of Auditory Mismatch Negativity in Depression and Its Dependence on Stimulus Intensity, <<CLINICAL EEG AND NEUROSCIENCE>>, 2015; (N/A): N/A-N/A. [doi:10.1177/1550059415584704] [http://hdl.handle.net/10807/71555]
Abnormality of Auditory Mismatch Negativity in Depression and Its Dependence on Stimulus Intensity
Restuccia, Domenico;Vollono, Catello;Buccelletti, Francesco;Camardese, Giovanni
2015
Abstract
Mismatch negativity (MMN) is thought to reveal several abnormalities of cognitive functioning. Although depression often affects cognitive functioning, previous studies concerning MMN in depressed patients provided conflicting results. In recent reports, it has been suggested that depressed patients may show abnormal auditory response to regular auditory stimuli presented with at a relatively high intensity. We thus recorded acoustic MMN in 16 drug-free patients suffering from moderate depression and in 10 healthy subjects at 2 different stimulus intensities. Differences in MMN latency and amplitude between depressed patients and healthy subjects reached the significance level only for high intensity stimulation, and they were consistent with a dysfunction of frontal MMN subcomponents in depressed patients. This finding suggests that consistent MMN abnormalities can be observed in depressed patients by using high-intensity stimulation; moreover, it supports the hypothesis of disturbances of frontal networks in depression even in early stages of disease.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.