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The 21st century will witness the unprecedented marketing of
therapeutic drugs developed from cannabinoids and the
endocannabinoid system. Cannabinoids is a timely volume, which
represents a comprehensive review of the most important issues in
cannabinoid research as well as those of most likely therapeutic
relevance. For the first time, the multi-faceted aspects of
cannabinoid chemistry, biology and medicine are presented in one
volume. -major families of phytocannabinoids;
The 21st century will witness the unprecedented marketing of
therapeutic drugs developed from cannabinoids and the
endocannabinoid system. Cannabinoids is a timely volume, which
represents a comprehensive review of the most important issues in
cannabinoid research as well as those of most likely therapeutic
relevance. For the first time, the multi-faceted aspects of
cannabinoid chemistry, biology and medicine are presented in one
volume. -major families of phytocannabinoids;
Over the past decade, there have been major advances in understanding the mechanisms whereby marijuana interacts with the brain in producing psychoactive and potentially therapeutic effects. The discovery of specific gene coding for cannabinoid receptors activated by smoking marijuana, and the finding of endogenous cannabinoids, which also activate the receptors, have transformed cannabinoid research into mainstream science with significant implications in human health and disease Endocannabinoids: The Brain and Body's Marijuana and Beyond documentsadvances in the discovery and functioning of naturally occurring marijuana-like substances in human biology. It explores recent findings that point to the existence of an endocannabinoid physiological control system (EPCS) that directly impacts human development, health, and disease. While cannabinoid effects on the brain have received the greatest attention throughout the literature, this work looks at research on the endogenous cannabinoid system's association across all of human physiology, including the immune, endocrine, and reproductive systems. With thoroughly researched and exceptionally insightful contributions from more than three-dozen top-flight researchers representing a cross-section of disciplines from molecular biology, genetics, and neurology to gynecology, physiology, and pharmacology, this work explores a range of topics as wide as the human body is complex. These topics include the EPCS's relation to cell development and regulation, CNS function, immune function modulation, reproduction, and digestion, as well as its function in mental illness, neurodegenerative diseases, and cancer. The final section in the book considers the significance of endogenous cannabinoids found in some of the simplest multicellular organisms in the animal kingdom, as well as in mammalian cells at the earliest stages of development, all of which suggests that they play a fundamental role in human biology.
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.
This internationally renowned author team provides a unique and thorough analysis and distillation of the endocannabinoid system and its relationship to abdominal obesity, diabetes, and cardiovascular disease. The endocannabinoid system (ECS) plays an important role in cardiometabolic risk, as well as modulating energy balance, feeding behavior, hepatic lipogenesis, and perhaps glucose homeostasis. Evidence suggests that the ECS is overactive in human obesity and dyslipidemia. Critical to the management of cardiometabolic risk, this new, timely book provides practical overviews and management guidance on many important topics, including:
Over the past decade, there have been major advances in understanding the mechanisms whereby marijuana interacts with the brain in producing psychoactive and potentially therapeutic effects. The discovery of specific gene coding for cannabinoid receptors activated by smoking marijuana, and the finding of endogenous cannabinoids, which also activate the receptors, have transformed cannabinoid research into mainstream science with significant implications in human health and disease Endocannabinoids: The Brain and Body's Marijuana and Beyond documentsadvances in the discovery and functioning of naturally occurring marijuana-like substances in human biology. It explores recent findings that point to the existence of an endocannabinoid physiological control system (EPCS) that directly impacts human development, health, and disease. While cannabinoid effects on the brain have received the greatest attention throughout the literature, this work looks at research on the endogenous cannabinoid system's association across all of human physiology, including the immune, endocrine, and reproductive systems. With thoroughly researched and exceptionally insightful contributions from more than three-dozen top-flight researchers representing a cross-section of disciplines from molecular biology, genetics, and neurology to gynecology, physiology, and pharmacology, this work explores a range of topics as wide as the human body is complex. These topics include the EPCS's relation to cell development and regulation, CNS function, immune function modulation, reproduction, and digestion, as well as its function in mental illness, neurodegenerative diseases, and cancer. The final section in the book considers the significance of endogenous cannabinoids found in some of the simplest multicellular organisms in the animal kingdom, as well as in mammalian cells at the earliest stages of development, all of which suggests that they play a fundamental role in human biology.
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