BackgroundSecondary Lactose intolerance (SLI) is common among infants in China, primarily resulting from secondary lactase deficiency due to mucosal damage. Current diagnostic methods are limited by poor sensitivity and specificity.ObjectiveTo investigate gut microbial composition and metabolic dysfunction in infants with SLI and to explore the potential utility of residual fecal lactose as a non-invasive indicator related to SLI.ResultsSLI infants exhibited significantly higher residual fecal lactose and lactate levels accompanied by reduced fecal short-chain fatty acid (SCFA) availability, consistent with incomplete lactose digestion and altered microbial fermentation.
Microbiota profiling revealed marked depletion of Bacteroidetes and certain Firmicutes (e.g. Ruminococcaceae, Erysipelotrichaceae, Peptostreptococcaceae, Megasphaera), along with reduced glycolysis pathways.
In vitro fermentation assays demonstrated a consistent reduction in total acid, acetate, and propionate production across multiple media, while lactate and gas production were significantly elevated in SLI samples under lactose, FOS, GOS, and starch-enriched conditions. Butyrate synthesis was partially preserved under protein-rich or minimal carbon media, indicating selective resilience of butyrogenic pathways.
Frontiers in Immunology published a clinical update in Infectious Disease on 21 Apr 2026.
The item focuses on Diagnostic and metabolic insights into secondary lactose intolerance in infants via fecal lactose quantification and gut microbiome profiling.
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