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Obesity is an epidemic problem not limited to Western society, but also in emerging industrial nations with large populations, especially in Asia. The connection between the gut and the brain is probably one of the most promising therapeutic targets for the treatment of obesity and metabolic syndrome. This book brings together reviews on the current understanding of how the gut and brain communicate in the regulation of metabolism. Individual chapters explore novel aspects of this interaction. A comprehensive update on the roles of smell and taste, the gut microbiome, and novel gut-derived neuropeptides in regulating metabolism via the brain is offered. Furthermore, the regulation of insulin sensitivity in the brain is discussed in detail. Providing an overview of the most recent findings, 'How Gut and Brain Control Metabolism' could spark in the reader new ideas or approaches, thus leading to much-needed new medical treatments. Physicians with an involvement in the treatment of metabolic disease and scientists performing research in the fields of nutrition and obesity will find this book a valuable addition to their bookshelves.
The fact that about 30-40% of the adults in the Western world are overweight or obese testifies to the frequency of the disturbances in body weight regulation. Scientists have established that caloric intake, macronutrient composition of the diet, basal and resting metabolic rate, thermic response to food, energy expenditure associated with movement and physical activity, and preferential storage of the surplus of calories as fat or lean tissues are critical determinants of energy balance and body weight. While much has been learned, the field is poised for major advances with the advent of a variety of imaging techniques, progress in quantitative and molecular genetics, use of transgenic rodent models and of breeding experiments with informative inbred strains, availability of stable isotopes for metabolic and behavioral studies, and a growing number of useful experimental animal and human models. This volume takes an integrative approach to obesity. It is structured around four major topics: (1) the animal and human models currently available for the study of body weight regulation with their strengths and limitations, (2) the molecular and genetic basis of the regulation of body weight, (3) the metabolic and physiological mechanisms involved, and (4) the behavioral and social determinants. The 13 background papers provide a critical overview of the present knowledge base while the group reports summarize the extensive deliberations of 38 international experts. Particular emphasis has been given to promising research areas and on the advances needed to ensure a better understanding of the biological and behavioral mechanisms of the regulation of body weight, with a particular emphasis on overweight and obesity.
On July 9-10, 2014, the Institute of Medicine's Food Forum hosted a public workshop to explore emerging and rapidly developing research on relationships among the brain, the digestive system, and eating behavior. Drawing on expertise from the fields of nutrition and food science, animal and human physiology and behavior, and psychology and psychiatry as well as related fields, the purpose of the workshop was to (1) review current knowledge on the relationship between the brain and eating behavior, explore the interaction between the brain and the digestive system, and consider what is known about the brain's role in eating patterns and consumer choice; (2) evaluate current methods used to determine the impact of food on brain activity and eating behavior; and (3) identify gaps in knowledge and articulate a theoretical framework for future research. Relationships among the Brain, the Digestive System, and Eating Behavior summarizes the presentations and discussion of the workshop.
Provides a comprehensive approach to gastrointestinal hormones, for clinicians and scientists who are interested in hormonal regulation of the gastrointestinal tract. The first section discusses general issues related to peptides as messengers, including receptors and signal transduction and control of gene expression. The second section presents the biochemical and physiological features of the gastrointestinal hormones and neuropeptides. The third section integrates these peptides into physiological and pathophysiological regulatory pathways of the gut. Annotation copyright by Book News, Inc., Portland, OR
This book is the result of the study of metabolic and hormonal disorders in patients suffering obesity and diabetes mellitus, focusing on mechanisms of formation of atherosclerotic changes in the myocardium and vessels in diabetes mellitus patient.
The Endocannabinoidome: The World of Endocannabinoids and Related Mediators is dedicated to the latest research and studies on endocannabinoids and cannabinoid receptors to illustrate their important role in the discovery of new, endocannabinoid-related, lipid mediators. Written by leading experts across different disciplines, this book focuses on the biochemical and anlayticial aspects of novel lipid signals, their pharmacological activities and their potential utilization for the development of new and effective therapeutic strategies. The first book of its kind, The Endocannabinoidome is a meaningful reference for all those involved in experimental efforts to further the development of this field. - Explores the novel and exciting aspects of several endocannabinoid-like molecules for which researchers are still seeking a function - Discusses the novel metabolic pathways for endocannabinoids in order to explain the failure of some clinical trials with inhibitors of more conventional metabolic pathways - Incorporates pharmacology, biochemistry and potential clinical applications to provide researchers with a complete look at endocannabinoids
The Gut-Brain Axis: Dietary, Probiotic, and Prebiotic Interventions on the Microbiota examines the potential for microbial manipulation as a therapeutic avenue in central nervous system disorders in which an altered microbiota has been implicated, and explores the mechanisms, sometimes common, by which the microbiota may contribute to such disorders. - Focuses on specific areas in which the microbiota has been implicated in gut-brain communication - Examines common mechanisms and pathways by which the microbiota may influence brain and behavior - Identifies novel therapeutic strategies targeted toward the microbiota in the management of brain activity and behavior