Abstract
Sepsis is a major cause of mortality in critically ill patients, necessitating improved early detection, risk stratification, and individualized clinical decision-making. The gut microbiome actively regulates host immunity, metabolism, and barrier function, engaging in bidirectional interactions with sepsis progression. Evidence suggests that gut dysbiosis not only accompanies sepsis but may also accelerate it. Characteristic shifts, including reduced microbial diversity, expansion of opportunistic pathogens, and decreased short-chain fatty acid production, could offer early prognostic signals prior to clinical decline. Advances in multi-omics and computational analytics are enabling the translation of microbial signatures into actionable clinical insights, supporting phenotype-specific stratification in sepsis. Emerging microbiome-targeted interventions such as next-generation probiotics, synbiotics, metabolite supplementation, and fecal microbiota transplantation show potential for modulating host responses in a stage-specific manner. Within a precision medicine framework, microbiome-derived biomarkers may refine both critical care management and palliative decision-making. In advanced or refractory sepsis, these insights could help tailor treatment intensity, prioritize symptom control, and avoid non-beneficial therapeutic escalation. Realizing this potential will require prospective validation and standardized approaches to integrate microbiome data into personalized, goal-concordant sepsis care.