By Mac Shine (Sydney, Australia).

Decades of neurobiological research have disclosed the diverse manners in which the response properties of neurons are dynamically modulated to support adaptive cognitive functions. This neuromodulation is achieved through alterations in the biophysical properties of the neuron. However, changes in cognitive function do not arise directly from the modulation of individual neurons but are mediated by population dynamics in mesoscopic neural ensembles. Understanding this multiscale mapping and how it pertains to flexible, adaptive brain dynamics is an important but nontrivial issue. In my talk, I will bridge these different levels of description by showing how computational models parametrically map classic neuromodulatory processes onto systems-level models of neural activity. The ensuing critical balance of systems-level activity supports perception and action, although our knowledge of this mapping remains incomplete. In this way, quantitative models that link microscale neuronal neuromodulation to systems- level brain function highlight gaps in knowledge and suggest new directions for integrating theoretical and experimental work.

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