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REM sleep controlling

McCarley, R. W. (2004). Mechanisms and models of REM sleep control. Arch. ItaL Biol. 142, 429-67. [Pg.53]

Complicated processes govern wakefulness, sleep, and the transitions leading to sleep initiation and maintenance. Although the neurophysiology of sleep is complex, certain neurotransmitters promote sleep and wakefulness in different areas of the central nervous system (CNS). Serotonin is thought to control non-REM sleep, whereas cholinergic and adrenergic transmitters mediate REM sleep. Dopamine, norepinephrine, hypocretin, substance P, and histamine all play a role in wakefulness. Perturbations of various neurotransmitters are responsible for some sleep disorders and explain why various treatment modalities are beneficial. [Pg.623]

Nitz, D. Siegel, J. (1997a). GABA release in the dorsal raphe nucleus role in the control of REM sleep. Am. J. Physiol. 273, R451-5. [Pg.20]

Overview of brain regions controlling wakefulness and REM sleep... [Pg.24]

Figure 2.1 Schematic of the rat brain (sagittal section) showing the approximate location of important brain structures controlling wakefulness and REM sleep. Abbreviations AH, anterior hypothalamus BF, basal forebrain DL pons, dorsolateral pons (rapid eye movement sleep control area) M-RA, Magoun/Rhines inhibitory area in the ventral medulla PH, posterior hypothalamus. Figure 2.1 Schematic of the rat brain (sagittal section) showing the approximate location of important brain structures controlling wakefulness and REM sleep. Abbreviations AH, anterior hypothalamus BF, basal forebrain DL pons, dorsolateral pons (rapid eye movement sleep control area) M-RA, Magoun/Rhines inhibitory area in the ventral medulla PH, posterior hypothalamus.
The concept of chemical neurotransmission originated in the 1920s with the classic experiments of Otto Loewi (which were themselves inspired by a dream), who demonstrated that by transferring the ventricular fluid of a stimulated frog heart onto an unstimulated frog heart he could reproduce the effects of a (parasympathetic) nerve stimulus on the unstimulated heart (Loewi Navratil, 1926). Subsequently, it was found that acetylcholine was the neurotransmitter released from these parasympathetic nerve fibers. As well as playing a critical role in synaptic transmission in the autonomic nervous system and at vertebrate neuromuscular junctions (Dale, 1935), acetylcholine plays a central role in the control of wakefulness and REM sleep. Some have even gone as far as to call acetylcholine a neurotransmitter correlate of consciousness (Perry et al., 1999). [Pg.26]

The development of antibodies against ChAT allowed the distribution of neurons producing acetylcholine in the nervous system to be revealed (Mesulam et al., 1983 Armstrong et al., 1983 Jones Beaudet, 1987 Vincent Reiner, 1987). In the context of control of wakefulness and REM sleep two groups of cholinergic neurons are of primary importance. Neurons located in the basal forebrain and medial septum provide the cholinergic innervation of the cerebral... [Pg.26]

Pharmacological experiments have strongly implicated acetylcholine in the control of REM sleep. In humans, intravenous infusion of the AChE inhibitor... [Pg.27]

Solms, M. (2000). Dreaming and REM sleep are controlled by different brain mechanisms. Behav. Brain Sci. 23, 843-50 discussion 904-1121. [Pg.80]

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