Abstract
Oxidative stress is a state of imbalance between the process of producing and removing reactive oxygen species (ROS). With advancing age or in certain situations where oxidative stress cannot be combated, various pathologies such as inflammatory bowel diseases or neoplasia may occur. Over the past decade, a surge of intriguing discoveries has linked subtoxic levels of oxidative stress to key processes, including the maintenance of mucosal homeostasis, regulation of protective inflammation, and even the control of tissue wound healing. Given the complexity and limited understanding of oxidative mechanisms involved in human intestinal pathology, the relevance of experimental models becomes a critical consideration in efforts to elucidate these processes. Although diverse, none of these models fully replicate human digestive pathology; however, they remain valuable for developing new therapeutic strategies. This paper examines the main markers of oxidative stress and its mechanism and their impact on the intestinal tract, as well as the most widely used animal models that have contributed valuable insights into the pathogenesis of inflammatory bowel diseases (IBD).