Abstract
The capacity of the human brain to detect deviance in the acoustic environment pre-attentively is reflected in a brain event-related potential (ERP), mismatch negativity (MMN). MMN is observed in response to the presentation of rare oddball sounds that deviate from an otherwise regular pattern of frequent background standard sounds. While the primate and cat auditory cortex (AC) exhibit MMN-like activity, it is unclear whether the rodent AC produces a deviant response that reflects deviance detection in a background of regularities evident in recent auditory stimulus history or differential adaptation of neuronal responses due to rarity of the deviant sound. We examined whether MMN-like activity occurs in epidural AC potentials in awake and anesthetized rats to high and low frequency and long and short duration deviant sounds. ERPs to deviants were compared with ERPs to common standards and also with ERPs to deviants when interspersed with many different standards to control for background regularity effects. High frequency (HF) and long duration deviant ERPs in the awake rat showed evidence of deviance detection, consisting of negative displacements of the deviant ERP relative to ERPs to both common standards and deviants with many standards. The HF deviant MMN-like response was also sensitive to the extent of regularity in recent acoustic stimulation. Anesthesia in contrast resulted in positive displacements of deviant ERPs. Our results suggest that epidural MMN-like potentials to HF sounds in awake rats encode deviance in an analogous manner to the human MMN, laying the foundation for animal models of disorders characterized by disrupted MMN generation, such as schizophrenia.
Highlights
Reduced amplitude of the brain event-related potential (ERP), mismatch negativity (MMN), has been a consistent finding in patients with a diagnosis of a schizophrenia spectrum disorder (Michie, 2001) with a recent meta-analysis (Umbricht and Krljes, 2005) reporting an overall effect size of 0.99
EPIDURAL ERP MORPHOLOGY IN THE AWAKE AND ANESTHETIZED RATS Event-related potentials to the onsets of brief tone bursts recorded from an active epidural electrode located over right auditory cortex in unrestrained rats exhibited distinct components over the first 200 ms (Figure 2A), the amplitudes of these components differed according to stimulus attribute (HF, low frequency (LF), long duration (LD), and short duration (SD) stimuli)
MMN-like activity was evident as negative displacements of the oddball deviant ERP relative to ERPs to a common standard and a deviant with many standards. (b) The awake MMN-like response to High frequency (HF) deviants was sensitive to local temporal context of preceding stimulus regularity: it increased with the number of preceding standards prior to the deviant sound
Summary
Reduced amplitude of the brain event-related potential (ERP), mismatch negativity (MMN), has been a consistent finding in patients with a diagnosis of a schizophrenia spectrum disorder (Michie, 2001) with a recent meta-analysis (Umbricht and Krljes, 2005) reporting an overall effect size of 0.99. MMN occurs in the absence of attention to the oddball sequence and has as a consequence often been characterized as an automatic or preattentive brain response (Näätänen, 1992) It has been observed for sound sequences containing any discriminable change in simple physical features of background regular sounds (simple invariance deviants), such as frequency, duration, intensity, or spatial location (Picton et al, 2000) as well as change in more complex background regularities, such as melodic contour of sounds pairs (Winkler, 2007). While each of these models propose different underlying mechanisms, www.frontiersin.org
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
