TY - JOUR T1 - Multimodal mismatch responses in associative but not primary visual cortex support hierarchical predictive coding in cortical networks JF - bioRxiv DO - 10.1101/2023.04.12.536573 SP - 2023.04.12.536573 AU - Alice B Van Derveer AU - Jordan M. Ross AU - Jordan P. Hamm Y1 - 2023/01/01 UR - http://biorxiv.org/content/early/2023/04/12/2023.04.12.536573.abstract N2 - A key function of the mammalian neocortex is to process sensory data in the context of current and past stimuli. Primary sensory cortices, such as V1, respond weakly to stimuli that typical in their context but strongly to novel stimuli, an effect known as “deviance detection”. How deviance detection occurs in associative cortical regions that are downstream of V1 is not well-understood. Here we investigated parietal associative area (PTLp) responses to auditory, visual, and audio-visual mismatches with two-photon calcium imaging and local field potential recordings. We employed basic unisensory auditory and visual oddball paradigms as well as a novel multisensory oddball paradigm, involving typical parings (VaAc or VbAd) presented at p=.88 with rare “deviant” pairings (e.g. VaAd or VbAc) presented at p=.12. We found that PTLp displayed robust deviance detection responses to auditory-visual mismatches, both in individual neurons and in population theta and gamma-band oscillations. In contrast, V1 neurons displayed deviance detection only to visual deviants in a unisensory context, but not to auditory or auditory-visual mismatches. Taken together, these results accord with a predictive processing framework for cortical responses, wherein modality specific prediction errors (i.e. deviance detection responses) are computed in functionally specified cortical areas and feed-forward to update higher brain regions.Competing Interest StatementThe authors have declared no competing interest. ER -