ABSTRACT
INTRODUCTION: Multiple illnesses commonly involve both the Central Nervous System (CNS) and the Gastrointestinal Tract (GI) simultaneously. Consistent evidence suggests that neurological disorders impair GI tract function and worsen the symptomatology and pathophysiology of digestive disorders. On the other hand, it has been proposed that early functional changes in the GI tract contribute to the genesis of several CNS illnesses. Additionally, the role played by the gut in these diseases can be seen as a paradigm for how the gut and the brain interact. METHODS: We mentioned significant GI symptoms and discussed how the GI tract affects central nervous system illnesses, including depression, anxiety, Alzheimer's disease, and Parkinson's disease in this study. We also explored potential pathophysiological underpinnings and novel targets for the creation of future therapies targeted at gut-brain connections. RESULTS & DISCUSSION: In this situation, modulating the gut microbiota through the administration of fecal microbiota transplants or probiotics may represent a new therapeutic option for this population, not only to treat GI problems but also behavioral problems, given the role that dysbiosis and leaky gut play in many neurological disorders. CONCLUSION: Accurate diagnosis and treatment of co-existing illnesses also require coordination between psychiatrists, neurologists, gastroenterologists, and other specialties, as well as a thorough history and thorough physical examination.
ABSTRACT
It is known that reactive oxygen species cause abnormal immune responses in the gut during inflammatory bowel diseases (IBD). Therefore, oxidative stress has been theorized as an agent of IBD development and antioxidant compounds such as vitamin C (L-ascorbic acid) have been studied as a new tool to treat IBD. Therefore, the potential of vitamin C to treat IBD was reviewed here as a critical discussion about this field and guide future research. Indeed, some preclinical studies have shown the beneficial effects of vitamin C in models of ulcerative colitis in mice and clinical and experimental findings have shown that deficiency in this vitamin is associated with the development of IBD and its worsening. The main mechanisms that may be involved in the activity of ascorbic acid in IBD include its well-established role as an antioxidant, but also others diversified actions. However, some experimental studies employed high doses of vitamin C and most of them did not perform dose-response curves and neither determined the minimum effective dose nor the ED50. Allometric extrapolations were also not made. Also, clinical studies on the subject are still in their infancy. Therefore, it is suggested that the research agenda in this matter covers experimental studies that assess the effective, safe, and translational doses, as well as the appropriate administration route and its action mechanism. After that, robust clinical trials to increase knowledge about the role of ascorbic acid deficiency in IBD patients and the effects of their supplementation in these patients can be encouraged.
