Massive perturbation of sound representations by anesthesia in the auditory brainstem

Abstract

AbstractAnesthesia modifies sensory representations in the thalamo-cortical circuit, but is considered to have a milder impact on peripheral sensory processing. Here, tracking the same neurons across wakefulness and isoflurane anesthesia, we show that the amplitude and sign of single neuron responses to sounds are massively modified by anesthesia in the cochlear nucleus of the brainstem, the first relay of the auditory system. The reorganization of activity is so profound that decoding of sound representation in anesthesia is not possible based on awake activity. However, population level parameters, such as average tuning strength and population decoding accuracy are weakly affected by anesthesia, explaining why its effect has previously gone unnoticed when comparing independently sampled neurons. Together, our results indicate that the functional organization of the auditory brainstem largely depends on the network state and is ill-defined under anesthesia. This demonstrates a remarkable sensitivity of an early sensory stage to anesthesia, which is bound to disrupt downstream processing.TeaserAnesthesia compromises the normal transmission of sensory information as early as the first relay in the auditory system.