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Locus Ceruleus Regulates Sensory Encoding By Neurons And Networks In Waking Animals, David M. Devilbiss, Michelle E. Page, Barry D. Waterhouse
Locus Ceruleus Regulates Sensory Encoding By Neurons And Networks In Waking Animals, David M. Devilbiss, Michelle E. Page, Barry D. Waterhouse
Department of Neurosurgery Faculty Papers
Substantial evidence indicates that the locus ceruleus (LC)–norepinephrine (NE) projection system regulates behavioral state and state-dependent processing of sensory information. Tonic LC discharge (0.1–5.0 Hz) is correlated with levels of arousal and demonstrates an optimal firing rate during good performance in a sustained attention task. In addition, studies have shown that locally applied NE or LC stimulation can modulate the responsiveness of neurons, including those in the thalamus, to nonmonoaminergic synaptic inputs. Many recent investigations further indicate that within sensory relay circuits of the thalamus both general and specific features of sensory information are represented within the collective firing patterns …