Login / Signup

Functional brain network reconfiguration during learning in a dynamic environment.

Chang-Hao KaoAnkit N KhambhatiDanielle S BassettMatthew R NassarJoseph T McGuireJoshua I GoldJoseph W Kable
Published in: Nature communications (2020)
When learning about dynamic and uncertain environments, people should update their beliefs most strongly when new evidence is most informative, such as when the environment undergoes a surprising change or existing beliefs are highly uncertain. Here we show that modulations of surprise and uncertainty are encoded in a particular, temporally dynamic pattern of whole-brain functional connectivity, and this encoding is enhanced in individuals that adapt their learning dynamics more appropriately in response to these factors. The key feature of this whole-brain pattern of functional connectivity is stronger connectivity, or functional integration, between the fronto-parietal and other functional systems. Our results provide new insights regarding the association between dynamic adjustments in learning and dynamic, large-scale changes in functional connectivity across the brain.
Keyphrases
  • resting state
  • functional connectivity
  • white matter
  • deep learning
  • blood brain barrier