Overview

This title includes a number of Open Access chapters. Providing a nuanced study of the connections between sleep, circadian rhythms, and metabolis, this informative book examines how circadian actions affect the liver and adipose tissue, the brain, and metabolism. This important book introduces the reader to circadian rhythms in the body and the external cues that set them, discusses on a molecular and organ level how disrupting these clocks results in metabolic and sleep disorders, and looks at the clinical applications of circadian rhythms, with a focus on sleep. The book covers a variety of important research in the field, including: • The power of computational biology to uncover new nodes in the network of circadian rhythms • Circadian rhythms as they relates to obesity • How late-night shift conditions impair the body’s ability to keep time and promote metabolic diseases and how this can be mitigated by strategic planning of feeding times • The relationship between the suprachiasmatic nuclei and orexin neurons, demonstrating the elegant interplay between our biological clocks and wakefulness • How sleep disorders can result from irregular circadian rhythms and potential ways to diagnose this in individuals • How sleeping behaviors can disturb the hypothalamic-pituitary-adrenal axis and the repercussions of this disruption on female reproduction • How disruption of sleep can be clinically beneficial for depressed patients • How mental state is influenced by circadian rhythm

Full Product Details

Author:   William Olds (Yale University, New Haven, Connecticut, USA)
Publisher:   Apple Academic Press Inc.
Imprint:   Apple Academic Press Inc.
Weight:   0.453kg
ISBN:  

9781774630792

ISBN 10:   1774630796
Pages:   378
Publication Date:   31 March 2021
Audience:   College/higher education ,  Professional and scholarly ,  Tertiary & Higher Education ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Introduction. Introduction: The Watch Inside all of Us. Regulation of Prokineticin 2 Expression by Light and the Circadian Clock. Circadian Signatures in Rat Liver: From Gene Expression to Pathways. Body Weight, Metabolism, and Clock Genes. Metabolism at Night versus the Morning. Circadian Desynchrony Promotes Metabolic Disruption in a Mouse Model of Shiftwork. Circadian Rhythms and Obesity in Mammals. Food and the Circadian Activity of the Hypothalamic-Pituitary-Adrenal Axis. Circadian and Dark-Pulse Activation of Orexin/Hypocretin Neurons. Meal Time Shift Disturbs Circadian Rhythmicity Along with Metabolic and Behavioral Alterations in Mice. A Metabolic–Transcriptional Network Links Sleep and Cellular Energetics in the Brain. Effects of Artificial Light and Sleep Disruption on Metabolism. Pathophysiology and Pathogenesis of Circadian Rhythm Sleep Disorders. Shift Work. A New Approach to Understanding the Impact of Circadian Disruption on Human Health. Waking and Sleeping in the Rat Made Obese Through a High-Fat Hypercaloric Diet. Effect of Sleep Deprivation on Brain Metabolism of Depressed Patients. Index.

Reviews

This is a compilation of recent research in the field of circadian rhythms, sleep, and metabolism, exploring the connections between these concepts and how perturbations of these rhythms manifest in disorders of metabolism and sleep. ... The primary audience is researchers and scientists with an interest in the interrelationship between circadian neurobiology, metabolism, and sleep. ... This is a noteworthy contribution to the field that brings together current knowledge at the intersection of circadian rhythms, sleep, and metabolism. -M. Isabel L. Crisostomo, MD, Rush University Medical Center, writing Doody's Book Reviews

Author Information

William Olds has an undergraduate degree from University of Michigan and is working on his graduate degree at Yale University, New Haven, Connecticut, USA, in the laboratory of Tian Xu. His current research focuses on satiety signals from the gut and how that communication to the brain breaks down in the pathogenesis of obesity.

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