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The control costs of human brain dynamics

Eric G. Ceballos, Andrea I. Luppi, Gabriel Castrillón, Manish Saggar, Bratislav Mišić, Valentin Riedl

2024Network Neuroscience17 citationsDOIOpen Access PDF

Abstract

The human brain is a complex system with high metabolic demands and extensive connectivity that requires control to balance energy consumption and functional efficiency over time. How this control is manifested on a whole-brain scale is largely unexplored, particularly what the associated costs are. Using the network control theory, here, we introduce a novel concept, time-averaged control energy (TCE), to quantify the cost of controlling human brain dynamics at rest, as measured from functional and diffusion MRI. Importantly, TCE spatially correlates with oxygen metabolism measures from the positron emission tomography, providing insight into the bioenergetic footing of resting-state control. Examining the temporal dimension of control costs, we find that brain state transitions along a hierarchical axis from sensory to association areas are more efficient in terms of control costs and more frequent within hierarchical groups than between. This inverse correlation between temporal control costs and state visits suggests a mechanism for maintaining functional diversity while minimizing energy expenditure. By unpacking the temporal dimension of control costs, we contribute to the neuroscientific understanding of how the brain governs its functionality while managing energy expenses.

Topics & Concepts

Control (management)Human brainComputer scienceResting state fMRIDimension (graph theory)NeurosciencePsychologyArtificial intelligenceMathematicsPure mathematicsAdvanced MRI Techniques and ApplicationsFunctional Brain Connectivity StudiesAdvanced Neuroimaging Techniques and Applications
The control costs of human brain dynamics | Litcius