Abstract
In principle, cortico-cortical communication dynamics is simple: neurons in one cortical area communicate by sending action potentials that release glutamate and excite their target neurons in other cortical areas. In practice, knowledge about cortico-cortical communication dynamics is minute. One reason is that no current technique can capture the fast spatio-temporal cortico-cortical evolution of action potential transmission and membrane conductances with sufficient spatial resolution. A combination of optogenetics and monosynaptic tracing with virus can reveal the spatio-temporal cortico-cortical dynamics of specific neurons and their targets, but does not reveal how the dynamics evolves under natural conditions. Spontaneous ongoing action potentials also spread across cortical areas and are difficult to separate from structured evoked and intrinsic brain activity such as thinking. At a certain state of evolution, the dynamics may engage larger populations of neurons to drive the brain to decisions, percepts and behaviors. For example, successfully evolving dynamics to sensory transients can appear at the mesoscopic scale revealing how the transient is perceived. As a consequence of these methodological and conceptual difficulties, studies in this field comprise a wide range of computational models, large-scale measurements (e.g., by MEG, EEG), and a combination of invasive measurements in animal experiments. Further obstacles and challenges of studying cortico-cortical communication dynamics are outlined in this critical review.
Highlights
AND SCOPE When one speaks of cortico-cortical connections, one usually means that axons start in one cortical area and end in another cortical area
The word communicate does not imply that the neurons in one area send coded messages to their target neurons; it means that the neurons send action potentials to the pre-synaptic terminals on the target neurons
SPONTANEOUS AND INTRINSIC COMMUNICATION DYNAMICS—EXPERIMENTS AND COMPUTATIONAL MODELING Neurons sending action potentials to another cortical area increase the dVm(t)/dt of the target neurons, no matter what caused the action potentials in the first place (Roland, 2010)
Summary
AND SCOPE When one speaks of cortico-cortical connections, one usually means that axons start in one cortical area and end in another cortical area. By cortico-cortical communication dynamics we mean the spatial and temporal evolution of r(t)s and dVm(t)/dt between neurons in different cortical areas.
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