Colorectal cancer (CRC) incidence rises with age, driven by factors such as diet. Inulin, a soluble fiber found in plants like Jerusalem artichoke and chicory, may influence CRC risk by modulating gut microbiota and improving metabolic profiles. This systematic review and meta-analysis evaluate the effects of inulin on CRC in animal models and explore its underlying mechanisms. A comprehensive search of nine databases led to the selection of 12 studies from an initial pool of 114 articles, based on predefined inclusion criteria. Standardized meta-analyses were performed for eligible studies. Results indicate that inulin supplementation significantly reduced aberrant crypt foci count in rats (SMD = -3.805, 95% CI, -7.348 to -0.262, p <
0.002), increased cecal weight (SMD = 6.723, 95% CI, 3.395-10.051, p = 0.000), enhanced colonic lactobacillus counts (SMD = 1.307, 95% CI, 0.644-1.970, p = 0.000), decreased coliform bacteria (SMD = -1.659, 95% CI, -2.147 to -1.171, p = 0.000), and elevated colonic short-chain fatty acids (SCFAs) levels, including acetate (SMD = 3.50, 95% CI, 1.111-5.890, p <
0.002), propionate (SMD = 3.081, 95% CI, 1.416-4.746, p <
0.002), and butyrate (SMD = 4.471, 95% CI, 2.464-6.478, p <
0.002). This systematic review demonstrates inulin's chemopreventive effects against CRC in animal models by enhancing beneficial gut bacteria (e.g., lactobacillus) and boosting SCFAs. Findings advocate integrating inulin-rich foods/supplements into prevention strategies for precision prebiotic development via SCFA-mediated epigenetic and antitumor mechanisms.