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Conference by Dr. Manuel S. Malmierca

février 9 @ 16 h 00 min - 17 h 00 min

| Gratuit

Stimulus-specific adaptation in the subcortical auditory brain.


Dr Malmierca will present the most recent studies on subcortical and cortical SSA and deviance detection.

Manuel S. Malmierca is an MD, PhD, he is professor and has published more than 90 publications including book chapters and scientific articles plublished in prestigous journals such as JCN, Neurocience, Scientific Reports, J. Neuroscience and Plos Biology, among others. He is an editor and a member of the editorial board in several journals in the field of neuroscience. Currently, he is the director of the Institute of Neuroscience of Castilla y León (INCYL) at the University of Salamanca and Medical School.

His primary research interest is the structure and function of the auditory brain and over the last 15 years he has focused and worked on the neurophysiological mechanisms that govern the neuronal adaptation and the relationship between SSA (stimulus-specific adaptation) and MMN (mismatch negativity).


The soundscape consists of a cacophony of multiple sources of sounds with complex properties overlapping temporally and spectrally.  Nonetheless, what we can hear is an orderly acoustic stream organised according to sources and auditory objects, allowing us to distinguish deviant or novel events and select some sources or objects for further processing. Recent evidence suggests that these perceptual achievements are based on properties that are encoded at earlier stages of the auditory pathway.

Stimulus-specific adaptation (SSA) is the reduction in the responses to a common sound relative to the same sound when rare. It was originally described in the primary auditory cortex (A1) as the neuronal correlate of the mismatch negativity (MMN), an important component of the auditory event-related potentials that is elicited by changes in the auditory environment. However, the relationship between SSA and the MMN is still a subject of debate. The MMN is a mid-late potential (~150-200 ms in humans), and its neural sources have been located mainly within non-primary auditory cortex in humans and animal models. Moreover, SSA is also present as early as in the auditory midbrain and thalamus (IC and MGB).

In this talk, I will show our recent findings on recordings from single neurons in the IC, MGB and auditory cortex (AC) of anaesthetized rats to an oddball paradigm similar to that used for MMN studies. Our data demonstrate that: 1) Most neurons in the non-lemnical divisions of the IC and MGB show strong SSA; 2) the magnitude of adaptation in many IC neurons increased proportionally with frequency contrast and low probability of occurrence for deviant tones; 3) SSA varies within the neuronal receptive field; 4) GABAergic and/or glycinergic inhibition play a role in shaping SSA in the IC and MGB; 5) Acetylcholine modulates SSA by differently affecting the response to the standard sounds; 6) Our most recent recordings from different AC fields demonstrate that SSA is much stronger and develops faster in non-primary than in primary auditory cortex, paralleling the organization of subcortical SSA; And finally, 7) we unravel the hierarchical emergence of prediction error signals along the central auditory system. These error signals are detectable already at subcortical levels and correlated with large-scale mismatch responses in auditory cortex. Thus we demonstrate that deviance detection can be tracked down to the neuronal level and highlight the role of subcortical structures in cognition.

Taken together our results suggest that SSA can be generated in a bottom-up manner throughout the auditory pathway and they are congruent with the notion that subcortical SSA can contribute upstream to the generation of MMN. We show that neuronal prediction errors are hierarchically organized and detectable already at subcortical levels. Our results unify three coexisting views of perceptual deviance detection at different levels of description: neuronal physiology, cognitive neuroscience and the theoretical predictive coding framework.

 Financial support was provided by the Spanish MINECO (BFU2013-43608-P; PSI2013-49348-EXP) and JCYL (SA343U14); and EM-ACN (Erasmus Mundus Student Exchange Network in Auditory Cognitive Neuroscience)



Date :
février 9
16 h 00 min - 17 h 00 min
Prix :
Catégorie de l'événement:


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