The brain selectively allocates energy to functional brain networks under cognitive control

2024

Brain Energy Allocation During Cognitive Tasks

Sample size: 144 publication 10 minutes Evidence: high

Author Information

Author(s): Majid Saberi, Jenny R. Rieck, Shamim Golafshan, Cheryl L. Grady, Bratislav Misic, Benjamin T. Dunkley, Ali Khatibi

Primary Institution: Neurosciences & Mental Health Program, The Hospital for Sick Children Research Institute, Toronto, Canada

Hypothesis

The energy of the whole-brain functional network varies between resting state and tasks involving working memory, inhibitory control, and cognitive flexibility.

Conclusion

The brain allocates energy differently across functional networks depending on cognitive demands, with sensory networks receiving more energy for flexibility and cognitive networks requiring less energy for efficient functioning.

Supporting Evidence

The energy of the whole-brain network increases during cognitive control tasks compared to resting state.
Sensory networks receive more energy to support flexibility for processing sensory stimuli.
Cognitive networks function efficiently with less energy during tasks.
Network energy improves predictive modeling for cognitive control tasks.
Lower energy levels during resting state indicate a well-coordinated brain organization.

Takeaway

The brain uses energy like a battery, giving more power to parts that help us think and react when we need to, especially when doing tasks like remembering or controlling impulses.