Microbial flora in NSAID-induced intestinal damage: A role for antibiotics?

Upper gastrointestinal (GI) complications are well-recognized adverse events associated with non-steroidal anti-inflammatory drug (NSAID) use. However, NSAID-induced damage to the distal GI tract is also common and more frequent than previously recognized. These untoward effects include increased mucosal permeability, mucosal inflammation, anemia and occult blood loss, malabsorption, protein loss, ileal dysfunction, diarrhea, mucosal ulceration, strictures due to diaphragm disease as well as active bleeding and perforation. Studies with selective COX-2 inhibitors have shown that, in the short term, these agents do not increase mucosal permeability and display a reduced by 50% incidence of serious lower GI side effects compared to traditional NSAIDs. However, the long-term use of this therapeutic strategy is limited by the increased risk of serious cardiovascular events, especially in patients with multiple risk factors. Several studies have suggested that intraluminal bacteria play a significant role in the pathogenesis of small-bowel damage induced by NSAIDs and that enterobacterial translocation into the mucosa represents the first step that sets in motion a series of events leading to gross lesion formation. Experimental and clinical investigations indicate that in the short term, antibacterial agents either reduce or abolish NSAID enteropathy. However, potential adverse effects of systemic antimicrobials and the possible occurrence of drug resistance have so far precluded this interesting approach. The availability of poorly absorbed and effective antibiotics, like rifaximin, may represent an attractive alternative to prevent or limit NSAID-associated intestinal damage.