: Sampling behaviors have sensory consequences that can hinder perceptual stability. In olfaction, sniffing affects early odor encoding, mimicking a sudden change in odor concentration. We examined how the inhalation speed affects the representation of odor concentration in the main olfactory cortex. Neurons combine the odor input with a global top-down signal preceding the sniff and a mechanosensory feedback generated by the air passage through the nose during inhalation. Still, the population representation of concentration is remarkably sniff invariant. This is because the mechanosensory and olfactory responses are uncorrelated within and across neurons. Thus, faster odor inhalation and an increase in concentration change the cortical activity pattern in distinct ways. This encoding strategy affords tolerance to potential concentration fluctuations caused by varying inhalation speeds. Since mechanosensory reafferences are widespread across sensory systems, the coding scheme described here may be a canonical strategy to mitigate the sensory ambiguities caused by movements.

A mechanosensory feedback that uncouples external and self-generated sensory responses in the olfactory cortex / A. Dehaqani, Alireza; Michelon, Filippo; Patella, Paola; Petrucco, Luigi; Piasini, Eugenio; Iurilli, Giuliano. - In: CELL REPORTS. - ISSN 2211-1247. - 43:4(2024), pp. 1-22. [10.1016/j.celrep.2024.114013]

A mechanosensory feedback that uncouples external and self-generated sensory responses in the olfactory cortex

Piasini, Eugenio;Iurilli, Giuliano
2024-01-01

Abstract

: Sampling behaviors have sensory consequences that can hinder perceptual stability. In olfaction, sniffing affects early odor encoding, mimicking a sudden change in odor concentration. We examined how the inhalation speed affects the representation of odor concentration in the main olfactory cortex. Neurons combine the odor input with a global top-down signal preceding the sniff and a mechanosensory feedback generated by the air passage through the nose during inhalation. Still, the population representation of concentration is remarkably sniff invariant. This is because the mechanosensory and olfactory responses are uncorrelated within and across neurons. Thus, faster odor inhalation and an increase in concentration change the cortical activity pattern in distinct ways. This encoding strategy affords tolerance to potential concentration fluctuations caused by varying inhalation speeds. Since mechanosensory reafferences are widespread across sensory systems, the coding scheme described here may be a canonical strategy to mitigate the sensory ambiguities caused by movements.
2024
43
4
1
22
114013
https://doi.org/10.1016/j.celrep.2024.114013
A. Dehaqani, Alireza; Michelon, Filippo; Patella, Paola; Petrucco, Luigi; Piasini, Eugenio; Iurilli, Giuliano
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11767/138290
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