Xuelong Zhao scite author profile

Sleep architecture carries vital information about brain health across the lifespan. In particular, the ability to express distinct vigilance states is a key physiological marker of neurological wellbeing in the newborn infant although systems-level mechanisms remain elusive. Here, we demonstrate that the transition from quiet to active sleep in newborn infants is marked by a substantial reorganization of large-scale cortical activity and functional brain networks. This reorganization is attenuated in preterm infants and predicts visual performance at two years. We find a striking match between these empirical effects and a computational model of large-scale brain states which uncovers fundamental biophysical mechanisms not evident from inspection of the data. Active sleep is defined by reduced energy in a uniform mode of neural activity and increased energy in two more complex anteroposterior modes. Preterm-born infants show a deficit in this sleep-related reorganization of modal energy that carries novel prognostic information.

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Neural network based identification of Preisach-type hysteresis in piezoelectric actuator using hysteretic operator

Zhao

Tan

2006

Sensors and Actuators A: Physical

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Quantised control design for networked control systems

Yue

Zhao

2007

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Xuelong Zhao

Eigenmodes of brain activity: Neural field theory predictions and comparison with experiment

Large-scale brain modes reorganize between infant sleep states and carry prognostic information for preterms

Neural network based identification of Preisach-type hysteresis in piezoelectric actuator using hysteretic operator

Quantised control design for networked control systems

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