Introduction: Irritable bowel syndrome (IBS) is a functional gastrointestinal disorders characterized by symptoms such as bloating, abdominal pain, diarrhea and constipation, without structural abnormality and etiological agents. Risk factors such as genetic straits, microbial and parasitic infection, antibiotic usage and psychological stress have been long implicated in the pathogenesis of IBS. Enteric commensal overgrowth, intestinal permeability rise and low grade inflammation were recently identified in IBS patients. Previous animal studies have shown that psychological stress increases abdominal pain perception and causes intestinal barrier disruption. Aim: To investigate whether enteric dysbiosis by antibiotic usage and Giardia lamblia infection potentiates stress-induced visceral hypersensitivity and intestinal dysfunctions. Methods and Results: In the first part, specific pathogen free BALB/c male mice drinking normal water (NW) or antibiotic water (AW) for 10 days were sacrificed immediately, or subsequently nonhandled (NH) or subjected to water avoidance stress (WAS) for 1h/day for 10 days after antibiotic removal. We assessed the effects of oral antibiotics on gut bacterial counts and electrophysiological parameters. Compared to mice drinking NW, the body weight of AW mice dropped 33.29 ± 0.06 % at the end of antibiotic treatment, and recovered to normal weight after antibiotic removal. The total aerobic and anaerobic bacterial counts in the cecum and colon were significantly decreased by antibiotic treatment, and bacterial rebound to normal levels after antibiotic removal. Increased short-circuit current was found in the jejunal and colonic tissues in AW mice compared to NW mice, suggesting increased ion secretion after antibiotic treatment. Neither change in mucosal-to-serosal dextran flux nor histological structural damage was seen in intestinal tissues of AW mice compared to NW mice, suggesting that the epithelial barrier remains intact following antibiotic usage. Then we investigate whether antibiotic dysbiosis potentiates stress-induced visceral hypersensitivity and intestinal epithelial dysfunction. Mice drinking NW and AW were subjected to NH or WAS after antibiotic withdrawal. Perception of psychological stress was confirmed by increased serum corticosterone levels following WAS. The visceromoter responses (VMR) caused by low volume of colorectal distension (CRD) was statistically increased in AW-WAS compared to NW-NH mice, indicating that the combination of antibiotic usage and psychological stress may synergistically trigger allodynia. Moreover, VMR induced by high volume of CRD were augmented in NW-WAS, AW-WAS and AW-NH mice compared to NW-NH mice, suggesting that psychological stress alone causes hyperalgesia but no synergistic effect with antibiotics. The intestinal bacterial counts were similar between NW-NH and NW-WAS mice, whereas statistically higher numbers were found in the cecum of AW-WAS mice compared to that of NW-WAS mice, suggesting an exaggerated bacterial rebound by antibiotic withdrawal upon exposure to psychological stress. Fluorescence in situ hybridization (FISH) revealed bacterial invasion to jejunal crypts in AW-WAS mice only but not in other groups. All four groups of mice displayed normal intestinal histological structures with no sign of bacterial translocation to liver and spleen. No difference in intestinal epithelial functions (i.e. short-circuit current and dextran permeability) were seen between NW-WAS and AW-WAS mice. In the second part, specific pathogen free C57BL/6 male mice were inoculated with phosphate-buffered saline (PBS) or 10e7 trophozoites of Giardia lamblia strain GS/M. On post-infection day 35 in which the trophozoites cannot be detected in the small intestines (post-clearance phase), mice were subjected to NH or WAS. Compared to PBS-NH mice, the VMR caused by low volume of CRD was increased in Giardia-NH and Giardia-WAS groups but not PBS-WAS groups, indicating that post-giardiasis alone may trigger allodynia. Moreover, the VMR induced by high volume of CRD was increased in PBS-WAS and Giardia-WAS mice compared to PBS-NH groups, whereas no difference was seen between Giardia-NH and PBS-NH mice, suggesting that psychological stress but not Giardia infection causes hyperalgesia and the combination of two factors show no synergistic effects. Increased jejunal permeability was seen Giardia-NH and Giardia-WAS mice without histological structural change. Although the total bacterial numbers were comparable in the four groups, bacterial invasion to enterocytes and gut mucosa accompanied with structural disruption of tight junction ZO-1 and occludin was detected in small intestine of Giardia-WAS mice. Conclusions: The combinational risk factors (i.e. antibiotic usage plus psychological stress, and post-infection plus the latter) induced visceral hypersensitivity in the form of allodynia but showed no synergistic effects on hyperalgesia. Moreover, both combinations induced enteric bacterial dysbiosis, which may be involved in the mechanism of visceral hypersensitivity.