Oxidative stress plays a prominent role in the development of numerous human diseases associated with animal-based protein, high-carbohydrate diets and excessive fat consumption. Obesity represents the main risk factor for chronic diseases such as cardiovascular disease, cancer, and type 2 diabetes. Extensive research highlights the detrimental impacts of diets high in saturated fat and refined carbohydrates. Type 2 diabetes, cardiovascular disease and obesity are attributed to the sedentary lifestyles, overconsumption of foods high in saturated fats and carbohydrates, and the saturation of nutrient storage. Indeed, the effects of oxidative stress are associated with the absolute quantity and the type of macronutrients; both of these aspects contribute to oxidative stress and may favor the development of obesity-associated diseases and obesity. Nonetheless, the underlying mechanisms of nutritionally mediated oxidative stress are complex and poorly understood. The literature reported on nutritionally mediated oxidative stress and the role of diets in oxidative stress-induced diseases has not well been compiled in a singular source.

“Nutrients and Oxidative Stress: Biochemistry Aspects and Pharmacological Insights” explores how dietary choices dampen or exacerbate inflammation and oxidative stress. The implications of oxidative stress in glucose metabolism and adipocyte and obesity-associated non-communicable diseases are also discussed in this brief. Several issues linked to nutritionally mediated oxidative stress, including high carbohydrates, high animal-based proteins, and excessive consumption of fats and oxidative stress, and molecular mechanisms of oxidative stress-induced diseases are covered. The role of diets in oxidative stress-induced diseases is also discussed. By summarizing all the literature in one place, this work provides a cohesive representation of the information and practical reference on the underlying mechanisms of nutritionally mediated oxidative stress involved in the prevention of chronic diseases. The work provides a better understanding of the nutritionally mediated oxidative stress and the molecular mechanisms of oxidative stress in the development of chronic diseases and obesity.