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Abstract rules drive adaptation in the subcortical sensory pathway

Alejandro Tabas, Glad Mihai, Stefan J. Kiebel, Robert Trampel, Katharina von Kriegstein

2020eLife47 citationsDOIOpen Access PDF

Abstract

The subcortical sensory pathways are the fundamental channels for mapping the outside world to our minds. Sensory pathways efficiently transmit information by adapting neural responses to the local statistics of the sensory input. The long-standing mechanistic explanation for this adaptive behaviour is that neural activity decreases with increasing regularities in the local statistics of the stimuli. An alternative account is that neural coding is directly driven by expectations of the sensory input. Here, we used abstract rules to manipulate expectations independently of local stimulus statistics. The ultra-high-field functional-MRI data show that abstract expectations can drive the response amplitude to tones in the human auditory pathway. These results provide first unambiguous evidence of abstract processing in a subcortical sensory pathway. They indicate that the neural representation of the outside world is altered by our prior beliefs even at initial points of the processing hierarchy.

Topics & Concepts

Sensory systemSensory AdaptationStimulus (psychology)NeuroscienceLocal field potentialNeural codingComputer scienceNeural adaptationPsychologyAdaptation (eye)Cognitive psychologyNeural dynamics and brain functionFunctional Brain Connectivity StudiesNeuroscience and Music Perception
Abstract rules drive adaptation in the subcortical sensory pathway | Litcius