Animal Model Reveals Potential Waterborne Transmission of H elicobacter pylori Infection

Background Helicobacter pylori infection has been consistently associated with lack of access to clean water and proper sanitation, but no studies have demonstrated that the transmission of H. pylori can occur from drinking contaminated water. In this study, we used a laboratory mouse model to test whether waterborne H. pylori could cause gastric infection. Materials and Methods Groups of immunocompetent C57/ BL 6 Helicobacter‐ free mice were exposed to static concentrations (1.29 × 10 5 , 10 6 , 10 7 , 10 8 , and 10 9 CFU /L) of H. pylori in their drinking water for 4 weeks. One group of Helicobacter‐ free mice was exposed to uncontaminated water as a negative control. H. pylori morphology changes in water were examined using microscopy Live/Dead staining. Following exposure, H. pylori infection and inflammation status in the stomach were evaluated using quantitative culture, PCR , the rapid urease test, and histology. Results None of the mice in the negative control or 10 5 groups were infected. One of 20 cages (one of 40 mice) of the 10 6 group, three of 19 cages (four of 38 mice) of the 10 7 CFU /L group, 19 of 20 cages (33 of 40 mice) of the 10 8 group, and 20 of 20 cages (39 of 40 mice) of the 10 9 CFU /L group were infected. Infected mice had significantly higher gastric inflammation than uninfected mice (27.86% higher inflammation, p  < .0001). Conclusions We offer proof that H. pylori in water is infectious in mice, suggesting that humans drinking contaminated water may be at risk of contracting H. pylori infection. Much work needs to be performed to better understand the risk of infection from drinking H. pylori ‐contaminated water.