Rice is a vitally important staple food for almost half of the world’s population. As the global population increases, the demands for rice are expected to remain high. Since the rice industry will remain sustainable for a long time, the production of rice by-products will remain high. Substantial evidence suggests that rice by-products such as rice husk, rice straw, broken rice, rice germ, rice bran, and brewers’ rice may possess beneficial effects against oxidative stress and metabolic disorders. These beneficial effects have been linked to the phytochemicals present in rice by-products such as vitamin E, dietary fiber, γ-oryzanol, γ-aminobutyric acid (GABA), and phytosterols. Despite this evidence, the literature pertaining to rice by-products and its derived components has not well been compiled. To this end, Rice By-products: Phytochemicals and Food Products Application provides full coverage of issues pertaining to rice by-products, namely rice demands and rice by-products production, phytonutrients and antioxidant properties of rice by-products, potential health benefits, application in food products, and future prospects. By summarizing all the information in a lucid and comprehensive manner, authors provide a cohesive representation of the literature on the molecular mechanisms involved in the pharmacological effects of the bioactive components that present in rice by-products, as well as plausible means for the prevention of metabolic disorders for readers and allied stakeholders.
The average life expectancy has increased worldwide in the recent decades. This has presented new challenges as old age brings the onset of diseases such as cancer, neurodegenerative disorders, cardiovascular disease, type 2 diabetes, arthritis, osteoporosis, stroke, and Alzheimer’s disease. Studies and research have shown the potential preventive and therapeutic roles of antioxidants in aging and age-related diseases by inhibiting the formation or disrupting the propagation of free radicals and thus increasing healthy longevity, enhancing immune function, and decreasing oxidative stress. This has made an antioxidant rich diet of increasing importance in battling the detrimental effects of the aging process. “The Role of Antioxidants in Longevity and Age-Related Diseases” is the book that compiles research on antioxidants and their biological mechanisms that mediate age-related diseases. This book covers the major issues linked to antioxidants, aging, and age-related diseases, including changes in organ systems over the lifespan, age-related oxidative stress-induced redox imbalance, inflammaging, implications of inflammation in aging and age-related diseases, and the important role of antioxidant-rich foods in their prevention and treatment of various age-related diseases. For researchers seeking a comprehensive single source on antioxidants and their roles in aging and age-related diseases, this novel text provides an up-to-date overview.
Rice is a vitally important staple food for almost half of the world’s population. As the global population increases, the demands for rice are expected to remain high. Since the rice industry will remain sustainable for a long time, the production of rice by-products will remain high. Substantial evidence suggests that rice by-products such as rice husk, rice straw, broken rice, rice germ, rice bran, and brewers’ rice may possess beneficial effects against oxidative stress and metabolic disorders. These beneficial effects have been linked to the phytochemicals present in rice by-products such as vitamin E, dietary fiber, γ-oryzanol, γ-aminobutyric acid (GABA), and phytosterols. Despite this evidence, the literature pertaining to rice by-products and its derived components has not well been compiled. To this end, Rice By-products: Phytochemicals and Food Products Application provides full coverage of issues pertaining to rice by-products, namely rice demands and rice by-products production, phytonutrients and antioxidant properties of rice by-products, potential health benefits, application in food products, and future prospects. By summarizing all the information in a lucid and comprehensive manner, authors provide a cohesive representation of the literature on the molecular mechanisms involved in the pharmacological effects of the bioactive components that present in rice by-products, as well as plausible means for the prevention of metabolic disorders for readers and allied stakeholders.
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