The Behavioral, Molecular, Pharmacological, and Clinical Basis of the Sleep-Wake Cycle
Coordonnateur : Murillo-Rodriguez Eric
The Behavioral, Molecular, Pharmacological, and Clinical Basis of the Sleep-Wake Cycle provides the first comprehensive overview on the molecular methodologies used to evaluate sleep while also examining the cellular, biochemical, genetic, and therapeutic aspects of the sleep-wake cycle. There have been profound changes in the landscape of approaches to the study of sleep ? mainly in the areas of molecular biology and molecular techniques. With this great focus on using multidisciplinary molecular methods, chapters address significant advances in the molecular mechanisms underlying sleep and the techniques researchers use to study this phenomenon.
Written by world-leading experts in the area, this book is of great interest to researchers working in the sleep field and to anyone interested in one of the most mysterious phenomena in science ? why we sleep and why we cannot survive without it.
1. The Sleep-Wake Cycle. An Overview 2. Multiple experimental approaches for studying the sleep-wake cycle 3. Phylogeny of Sleep 4. Neuromolecular Mechanism for Sleep Generation 5. Physiological Mechanism for Control of Waking 6. Pharmacology of Sleep 7. Electrophysiological correlates of the sleep-wake cycle 8. Sleep Disturbances 9. Obesity and sleep disturbances 10. Alcoholism and sleep
- Reviews the neurobiological and cellular mechanisms of the sleep-wake cycle
- Provides the implications of sleep in health and disease
- Contrasts different techniques to study molecular mechanisms
- Contains case studies to better illustrate points
- Covers sleep disturbance and health problems involved in sleep
- Includes chapters on the ontogeny of sleep, along with multiple mechanisms for sleep generation
Date de parution : 03-2019
Ouvrage de 220 p.
15x22.8 cm
Thèmes de The Behavioral, Molecular, Pharmacological, and Clinical... :
Mots-clés :
Acetylcholine; Adenosine; Alcohol; Alcohol dependence; Arousal; Basal forebrain; CRISPR-Cas9; Chronic low-grade inflammation; Circadian; Circadian rhythm disorders; Cytokines; Dopamine; ENT1; Electrical coupling; Electroencephalogram; Electromyogram; Electrooculogram; Endocannabinoids; Epigenetic; Excessive daytime sleepiness; Excessive daytime sleepiness (EDS); Gene; Histamine; Homeostatic; Hypocretin; Idiopathic hypersomnia; Insomnia; Insufficient sleep syndrome; MCH; Melatonin; Mice; Modafinil; N-type calcium channels; NREM; NREM sleep; Narcolepsy; Neuroglobin; Neuroprotection; Norepinephrine; Obesity; Obstructive sleep apnea; Obstructive sleep apnea (OSA); Oxidative stress; P/Q-type calcium channels; Parasomnias; Pedunculopontine nucleus; REM; REM sleep; Rats; Restless legs syndrome; Serotonin; Short sleep; Sleep; Sleep deprivation; Sleep disorders; Sleep homeostasis; Sleep–wake cycle; Sleep–wake neurobiology; Slow wave sleep; Slow-wave sleep; Transitional sleep; Ultradian; Visceral adipose tissue (VAT); Wakefulness