Endogenous fluctuations in cortical state selectively enhance different modes of sensory processing in human temporal lobe

The degree of synchronized fluctuations in neocortical network activity can vary widely during alertness. One influential idea that has emerged over the past few decades is that perceptual decisions are more accurate when the state of population activity is desynchronized. This suggests that optimal task performance may occur during a particular cortical state - the desynchronized state. Here we show that, contrary to this view, cortical state can both facilitate and suppress perceptual performance in a task-dependent manner. We performed electrical recordings from surface-implanted grid electrodes in the temporal lobe while human subjects completed two perceptual tasks. We found that when local population activity is in a synchronized state, network and perceptual performance are enhanced in a detection task and impaired in a discrimination task, but these modulatory effects are reversed when population activity is desynchronized. These findings indicate that the brain has adapted to take advantage of endogenous fluctuations in the state of neural populations in temporal cortex to selectively enhance different modes of sensory processing during perception in a state-dependent manner. Task performance is known to vary with cortical state. Here, the authors use electrical recordings in human temporal lobe to show that the same cortical state can both facilitate and suppress performance in a task-dependent manner.

Automated summary

The state of cortical activity can have both facilitatory and suppressive effects on perceptual performance, depending on the type of task. Contrary to previous beliefs, this study shows that synchronized activity can enhance performance in a detection task but impair it in a discrimination task. These findings suggest that the brain adapts to utilize endogenous fluctuations in neural populations to selectively enhance different sensory processing modes during perception.