There are two fundamental questions concerning brain states: what

There are two fundamental questions concerning brain states: what mechanisms control brain states and what is the function of each state. Lesion studies have identified multiple brain regions important for regulating brain

states, including those in the brainstem, hypothalamus, and the basal forebrain/preoptic area, but the specific role of each region and the underlying synaptic circuits are not yet well understood. The striking state-dependent changes of ensemble neuronal activity observed in www.selleckchem.com/products/VX-770.html many brain areas suggest that different brain states are associated with distinct functions, but definitive evidence for some of these functions is still lacking. In this Review, we summarize our current understanding of these issues and propose future studies using newly

developed techniques. Wakefulness and sleep can be well distinguished by measuring both EEG and electromyogram (EMG). During wakefulness, the EEG is generally desynchronized, and the EMG indicates high muscle tone. During NREM sleep, the skeletal muscle EMG activity is reduced, and the EEG is dominated by slow (<1 Hz) and delta (1–4 Hz) oscillations. Interestingly, during REM sleep, the EEG shows a desynchronized pattern that is similar to the awake state. However, the EMG indicates an almost complete loss of muscle tone, thus allowing a clear-cut distinction from the awake state. Identification of the brain areas controlling sleep and wakefulness began with the work of Constantin von Economo, a Romanian neurologist who studied patients with encephalitis. He found that lesions in the brainstem and posterior hypothalamus cause excessive sleepiness (Von Economo’s sleepy sickness), whereas lesions CCI-779 purchase of the anterior hypothalamus and basal forebrain cause the opposite symptom of insomnia (Von Economo,

1930). Subsequent work by Moruzzi and Magoun showed that the ascending reticular activating system originating in the brainstem is crucial for wakefulness and arousal (Moruzzi and Magoun, 1949). More recent studies have further identified the various cell groups in the brainstem, hypothalamus, and basal forebrain until that contribute to sleep-wake regulation (Figure 2). The brainstem is a key region that regulates both the brain state and muscle tone. In humans and other animals, large damage in the brainstem can cause coma, a prolonged state of unconsciousness and unresponsiveness. From the brainstem, two pathways are critical for maintaining wakefulness: the ascending reticular activating system projecting to the thalamus, hypothalamus, basal forebrain, and neocortex is important for cortical activation, and the descending pathway to the spinal cord is important for maintaining muscle tone (Holstege and Kuypers, 1987; Jones and Yang, 1985). Activity of the two pathways must be coordinated to ensure that voluntary movement is enabled when (and only when) the brain is awake. The ascending activating system consists of several nuclei in the brainstem and posterior hypothalamus.

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