Medicinal Foods as Potential Therapies for Type-2 Diabetes and Associated Diseases: The Chemical and Pharmacological Basis of their Action focuses on active pharmacological principles that modulate diabetes, associated risk factors, complications and the mechanism of action of widely used anti-diabetic herbal plants—rather than just the nutritional composition of certain foods. The book provides up-to-date information on acclaimed antidiabetic super fruits, spices and other food ingredients. Sections cover diabetes and obesity at the global level, the physiological control of carbohydrate and lipid metabolism, the pathophysiology of type-2 diabetes, the chemistry and pharmacology of a variety of spices, and much more. This book will be invaluable for research scientists and students in the medical and pharmaceutical sciences, medicinal chemistry, herbal medicine, drug discovery/development, nutrition science, and for herbal practitioners and those from the nutraceutical and pharm industries. Provides background knowledge on type-2 diabetes and its pathophysiology and therapeutic targets down to the molecular level Explores, in detail, the chemistry or secondary metabolites of the indicated foods that potentially modify diabetes and/or associated diseases Examines the pharmacological findings on medicinal foods, including available clinical trials
The African and Arabian Moringa Species: Chemistry, Bioactivity and Therapeutic Applications reviews the botany, socioeconomic significance and underlying chemistry of these interesting plants. The book begins by addressing the botanical and socioeconomic aspect of M. stenopetala, one of the most widely cultivated species within the genus. Next, it reviews the chemistry of the plant, with a systematic presentation covering the seed oil, various secondary metabolites, and issues relating to quality control. Final sections address the chemistry behind the reported use of the plant for the management of various diseases, highlighting potential antioxidant, antimicrobial, antidiabetic, anticancer properties and more. Other African and Arabian Moringa species, from their botany, to their chemical and pharmacological profiles are also included. Drawing on the author’s latest research and the most current literature in the field, this book is an invaluable guide for researchers in medicinal chemistry, herbal medicine, drug discovery/development, and plant derived natural products within both industry and academic environments. Outlines the botanical description, traditional uses and socioeconomic significance of the African and Arabian Moringa plants Exhaustively discusses the chemistry of these plants to highlight secondary metabolites and methodologies for their isolation, identification and quality control Discusses the future potential of the plants and their chemical components for various disease conditions
Organic chemistry plays a vital role in the pharmaceutical industry. Knowledge of organic compounds is used to inform research and further the discovery and development of new medicines. Likewise, organic chemistry is fundamental to understanding biological reactions, mechanisms and all life sciences in general. Basic Chemistry for Life Science Students and Professionals is an ideal introduction to organic chemistry in the context of the life sciences and pharmacy related disciplines; utilising drug molecules to illustrate the chemical basis of their efficacy and interaction with biological targets. This book builds upon the basic concepts of organic chemistry to develop the reader’s understanding of the importance of organic chemistry to the life sciences from natural product sources, their synthesis, and approaches to drug discovery. Ideal for undergraduate students in the natural sciences, this book is also an excellent primer for postgraduates in a variety of disciplines including forensic science and allied-health programmes as well as professionals working in related fields seeking a comprehensive introduction to organic chemistry in the context of pharmaceuticals.
Medicinal Foods as Potential Therapies for Type-2 Diabetes and Associated Diseases: The Chemical and Pharmacological Basis of their Action focuses on active pharmacological principles that modulate diabetes, associated risk factors, complications and the mechanism of action of widely used anti-diabetic herbal plants—rather than just the nutritional composition of certain foods. The book provides up-to-date information on acclaimed antidiabetic super fruits, spices and other food ingredients. Sections cover diabetes and obesity at the global level, the physiological control of carbohydrate and lipid metabolism, the pathophysiology of type-2 diabetes, the chemistry and pharmacology of a variety of spices, and much more. This book will be invaluable for research scientists and students in the medical and pharmaceutical sciences, medicinal chemistry, herbal medicine, drug discovery/development, nutrition science, and for herbal practitioners and those from the nutraceutical and pharm industries. Provides background knowledge on type-2 diabetes and its pathophysiology and therapeutic targets down to the molecular level Explores, in detail, the chemistry or secondary metabolites of the indicated foods that potentially modify diabetes and/or associated diseases Examines the pharmacological findings on medicinal foods, including available clinical trials
Organic chemistry plays a vital role in the pharmaceutical industry. Knowledge of organic compounds is used to inform research and further the discovery and development of new medicines. Likewise, organic chemistry is fundamental to understanding biological reactions, mechanisms and all life sciences in general. Basic Chemistry for Life Science Students and Professionals is an ideal introduction to organic chemistry in the context of the life sciences and pharmacy related disciplines; utilising drug molecules to illustrate the chemical basis of their efficacy and interaction with biological targets. This book builds upon the basic concepts of organic chemistry to develop the reader’s understanding of the importance of organic chemistry to the life sciences from natural product sources, their synthesis, and approaches to drug discovery. Ideal for undergraduate students in the natural sciences, this book is also an excellent primer for postgraduates in a variety of disciplines including forensic science and allied-health programmes as well as professionals working in related fields seeking a comprehensive introduction to organic chemistry in the context of pharmaceuticals.
The African and Arabian Moringa Species: Chemistry, Bioactivity and Therapeutic Applications reviews the botany, socioeconomic significance and underlying chemistry of these interesting plants. The book begins by addressing the botanical and socioeconomic aspect of M. stenopetala, one of the most widely cultivated species within the genus. Next, it reviews the chemistry of the plant, with a systematic presentation covering the seed oil, various secondary metabolites, and issues relating to quality control. Final sections address the chemistry behind the reported use of the plant for the management of various diseases, highlighting potential antioxidant, antimicrobial, antidiabetic, anticancer properties and more. Other African and Arabian Moringa species, from their botany, to their chemical and pharmacological profiles are also included. Drawing on the author’s latest research and the most current literature in the field, this book is an invaluable guide for researchers in medicinal chemistry, herbal medicine, drug discovery/development, and plant derived natural products within both industry and academic environments. Outlines the botanical description, traditional uses and socioeconomic significance of the African and Arabian Moringa plants Exhaustively discusses the chemistry of these plants to highlight secondary metabolites and methodologies for their isolation, identification and quality control Discusses the future potential of the plants and their chemical components for various disease conditions
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