This book brings together a broad range of experts working on the different aspects of foods and dietary supplements (vitamins, herbs, plant extracts, etc.) in health promotion and disease prevention. They have contributed chapters which define a range of ways in which foods, nutriceuticals, and dietary supplements prevent disease and promote health in older adults. They begin by reviewing the medicinal role of foods, herbal, and dietary supplements in health promotion in older adults, as well as some of the most commonly used supplements in elder "self-medication." They review the most recent studies of how foods, herbal, and dietary supplements are effective in the prevention and treatment of cancer, cardiovascular disease, diabetes, and other obesity associated diseases in older adults. Then they consider alcohol, other drugs, and plant based drugs of abuse which can adversely affect the health of older adults. Lastly, they consider foods and dietary supplements in gene regulation in older adults.
Ronald Ross Watson, PhD, is Professor of Health Promotion Sciences at the University of Arizona, Mel and Enid Zuckerman College of Public Health. Dr. Watson began his research in public health at the Harvard School of Public Health as a Fellow in 1971 doing field work on vaccines in Saudi Arabia. He has done clinical studies in Colombia, Iran, Egypt, Saudi Arabia and the United States which provides a broad international view of public health. He has served in the military reserve hospital for 17 years with extensive training in medical responses to disasters as the chief biochemistry officer of a general hospital, retiring as a Lt. Colonel. He is a distinguished member of several national and international nutrition, immunology, and cancer societies. Dr. Watson’s career has involved studying many lifestyle aspects for their uses in health promotion. He has edited over 100 biomedical reference books and 450 papers and chapters. His teaching and research focuses on alcohol, tobacco, and drugs of abuse in heart function and disease in mouse models.