INTRODUCTION: The gut microbiota, also called "the forgotten organ", is a complex and dynamic ecosystem of microorganisms that is fundamental to human physiology, neurobiology, and disease. This review examines the intricate relationships between the gut microbiota and the nervous system via the microbiota-gut-brain (MGB) axis. It discusses their endocrine, immunological, and neural pathways.
METHODS: A thorough literature search was performed across databases including PubMed, Scopus, Web of Science, and Google Scholar, using keywords such as "gut microbiota," "microbiota- gut-brain axis," "neuromodulation," "serotonin," "dopamine," "GABA," "norepinephrine," "prebiotics," "probiotics," and "faecal microbiota transplantation"..
RESULTS: This article explains how the gut microbiota impacts significant body's chemical messengers such as serotonin, dopamine, GABA, and norepinephrine. These are essential for brain functioning. All of these diseases have evidence linking inflammation of the gut and the brain. Furthermore, gut dysbiosis has been responsible for some of the most serious disorders of mankind through pandemics and plagues.
DISCUSSION: Moreover, prebiotics, probiotics, faecal microbiota transplantation (FMT), synbiotics, diet, and bioactive substances such as curcumin and flavonoids are new treatment approaches. These strategies help bring back a normal balance of gut microbes for mental and neurological health. Even though preclinical studies have shown promise, bringing it to humans is not simple. Issues like the strain, the individual, and sustained use make it a substantial challenge.
CONCLUSION: Future directions of work should combine and focus human-based research efforts with precise and personalized microbiome modulation, allowing us to leverage the gut-brain axis therapeutically.
