Switches between different behavioral states of the animal are associated with prominent changes in global brain activity, between sleep and wakefulness or from inattentive to vigilant states. What mechanisms control brain states, and what are the functions of the different states? Here we summarize current understanding of the key neural circuits involved in regulating brain states, with a particular emphasis on the subcortical neuromodulatory systems. At the functional level, arousal and attention can greatly enhance sensory processing, whereas sleep and quiet wakefulness may facilitate learning and memory. Several new techniques developed over the past decade promise great advances in our understanding of the neural control and function ...
The state of the brain and body constantly varies on rapid and slow timescales. These variations con...
Sleep-wake control is dependent upon multiple brain areas widely distributed throughout the neural a...
The state of the brain and body constantly varies on rapid and slow timescales. These variations con...
Learning is a complex brain function operating on different time scales, from milliseconds to years,...
Alterations in arousal states are associated with multiple neuropsychiatric disorders, including gen...
Sleep and wakefulness are promoted not by a single neural pathway but via wake or sleep-promoting no...
Neuronal activity is markedly different across brain states: it varies from desynchronized activity ...
Sleep is not a single state, but a complex set of brain processes that supports several physiologica...
This review summarizes the brain mechanisms controlling sleep and wakefulness. Wakefulness promoting...
Sleep is a complex, global and reversible behavioral state of all mammals, that is homeostatically r...
SummaryMammalian brains generate internal activity independent of environmental stimuli. Internally ...
The activity patterns adopted by brain neuronal populations differ dramatically between wakefulness ...
Cortical columns represent the elementary functional and computational module of the neocortex. Alth...
Sleep is an essential component of animal behavior, controlled by both circadian and homeostatic pro...
Mammalian sleep emerges from attenuated activity in the ascending reticular arousal system (ARAS), t...
The state of the brain and body constantly varies on rapid and slow timescales. These variations con...
Sleep-wake control is dependent upon multiple brain areas widely distributed throughout the neural a...
The state of the brain and body constantly varies on rapid and slow timescales. These variations con...
Learning is a complex brain function operating on different time scales, from milliseconds to years,...
Alterations in arousal states are associated with multiple neuropsychiatric disorders, including gen...
Sleep and wakefulness are promoted not by a single neural pathway but via wake or sleep-promoting no...
Neuronal activity is markedly different across brain states: it varies from desynchronized activity ...
Sleep is not a single state, but a complex set of brain processes that supports several physiologica...
This review summarizes the brain mechanisms controlling sleep and wakefulness. Wakefulness promoting...
Sleep is a complex, global and reversible behavioral state of all mammals, that is homeostatically r...
SummaryMammalian brains generate internal activity independent of environmental stimuli. Internally ...
The activity patterns adopted by brain neuronal populations differ dramatically between wakefulness ...
Cortical columns represent the elementary functional and computational module of the neocortex. Alth...
Sleep is an essential component of animal behavior, controlled by both circadian and homeostatic pro...
Mammalian sleep emerges from attenuated activity in the ascending reticular arousal system (ARAS), t...
The state of the brain and body constantly varies on rapid and slow timescales. These variations con...
Sleep-wake control is dependent upon multiple brain areas widely distributed throughout the neural a...
The state of the brain and body constantly varies on rapid and slow timescales. These variations con...