'Diabetes: Oxidative Stress and Dietary Antioxidants' bridges the trans-disciplinary divide among diabetologists, endocrinologists, and nutritionists in understanding and treating diabetes. The book covers, in a single volume, the science of oxidative stress in diabetes and the potentially therapeutic use of natural antioxidants in the diet or food matrix. The processes within the science of oxidative stress are described in concert with other processes such as apoptosis, cell signaling, receptor-mediated responses and more. This approach recognizes that diseases areusually multifactorial and that oxidative stress is a single component of this. Pharmacological treatments for diabetes are commonly marked by unwanted side effects, leading to treatment efforts using naturally occurring substances. But a plant-based approach alone is not sufficient; understanding the processes inherent in the oxidative stress of diabetes is vital for clinical workers, dietitians, and nutritionists. This translational work provides that understanding. The book begins by covering the basic biology of oxidative stress from molecular biology to imaging in relation to diabetes. There are chapters on neuropathy, nephropathy, atherosclerosis, cardiomyopathy, and retinopathy. The book then moves on to antioxidants in foods, including plants, components of the diet, and their relevance to diabetes. Nutritionists will use the information related to mitochondrial oxidative stress in one disease and propose new diet-related strategies to prevent such conditions arising in another unrelated disease.Dietitians will prescribe new foods or diets containing antioxidants for conditions that are refractory by conventional pharmacological treatments.Dietitians, after learning about the basic biology of oxidative stress, will be able to suggest new treatments to their multidisciplinary teams.Nutritionists and dietitians will learn about cell signaling andwill be able to suggest preventive or therapeutic strategies with antioxidant-rich foods to reduce damage done by diseases involving abnormal cell signaling.'