Abstract
Any occasional changes in the acoustic environment are of potential importance for survival. In humans, the preattentive detection of such changes generates the mismatch negativity (MMN) component of event-related brain potentials. MMN is elicited to rare changes (‘deviants’) in a series of otherwise regularly repeating stimuli (‘standards’). Deviant stimuli are detected on the basis of a neural comparison process between the input from the current stimulus and the sensory memory trace of the standard stimuli. It is, however, unclear to what extent animals show a similar comparison process in response to auditory changes. To resolve this issue, epidural potentials were recorded above the primary auditory cortex of urethane-anesthetized rats. In an oddball condition, tone frequency was used to differentiate deviants interspersed randomly among a standard tone. Mismatch responses were observed at 60–100 ms after stimulus onset for frequency increases of 5% and 12.5% but not for similarly descending deviants. The response diminished when the silent inter-stimulus interval was increased from 375 ms to 600 ms for +5% deviants and from 600 ms to 1000 ms for +12.5% deviants. In comparison to the oddball condition the response also diminished in a control condition in which no repetitive standards were presented (equiprobable condition). These findings suggest that the rat mismatch response is similar to the human MMN and indicate that anesthetized rats provide a valuable model for studies of central auditory processing.
Highlights
Any sudden changes in the perceptual environment may signal a potential threat or opportunity
The responses to deviant4200 Hz were significantly higher in amplitude than those to the control-4200 Hz, t(19) = 2.6, p = 0.017
The mismatch response disappeared when the inter-stimulus intervals (ISIs) were prolonged from 375 ms to 600 ms (+5% change in frequency) in group 1 and when the ISIs were prolonged from 600 ms to 1000 ms (+12.5% change in frequency) in group 2
Summary
Any sudden changes in the perceptual environment may signal a potential threat or opportunity. The preattentive detection of auditory changes is reflected by a mismatch negativity (MMN) component of event-related potentials [1]. MMN can be observed in response to rare tones (deviants) interspersed among frequent tones (standards) at about 100–250 ms from stimulus onset [2]. MMN is usually interpreted to reflect a comparison process in which a difference is detected between the current input and the representation of the standards in auditory sensory memory (memory-comparison hypothesis, [2,3,4]). MMN is generally observed when silent inter-stimulus intervals (ISIs) (2– 10 s, [5,6,7]) roughly corresponding to the length of the auditory sensory memory (1.5–4 s, [8,9]) are used
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