Significantly fewer bacteremic episodes with Gram-negative organisms occurred in the glutamine-supplemented patients. Glutamine supplementation improved measures of nutrition and decreased measures of overall inflammation. In addition, a trend toward lower mortality rate, decreased overall bacteremia incidence, and antibiotic usage in the glutamine group was observed. Glutamine's beneficial effects may be a result of improved gut integrity or immune function, but the precise mechanism of glutamine's protection is unknown.
A method to refine the treatment of sternal wounds using Vacuum Assisted Closure (V.A.C.) therapy as the bridge between débridement and delayed definitive closure is described. A retrospective review of 35 consecutive patients with sternal wound complications over a 2-year period (March of 1999 to March of 2001) was performed. The treatment of sternal wounds with traditional twice-a-day dressing changes was compared with the treatment with the wound V.A.C. device. An analysis of the number of days between initial débridement and closure, number of dressing changes, number and types of flaps needed for reconstruction, and complications was performed. Eighteen patients were treated with traditional twice-a-day dressing changes and 17 patients were treated with V.A.C. therapy alone. The two groups were similar regarding age, sex, type of cardiac procedure, and type of sternal wound. The V.A.C. therapy group had a trend toward a shorter interval between débridement and closure, with a mean of 6.2 days, whereas the dressing change group had mean of 8.5 days. The V.A.C. therapy group had a significantly lower number of dressing changes, with a mean of three, whereas the twice-a-day dressing change group had a mean of 17 (p < 0.05). Reconstruction required an average of 1.5 soft-tissue flaps per patient treated with traditional dressing changes versus 0.9 soft-tissue flaps per patient for those treated with V.A.C. therapy (p < 0.05). Before closure, there was one death among patients undergoing dressing changes and three in the V.A.C. therapy group, all of which were unrelated to the management of the sternal wound. Patients with sternal wounds who have benefited from V.A.C. therapy alone have a significant decrease in the number of dressing changes and number of soft-tissue flaps needed for closure. Finally, the V.A.C. therapy group had a trend toward a decreased number of days between débridement and closure.
OBJECTIVE
This study was designed to examine the effect of morphine administration on the intestinal mucus barrier and determine its direct effect on the virulence and lethality of Pseudomonas aeruginosa, one of the most frequent pathogens to colonize the gut of critically ill patients.
SUMMARY BACKGROUND DATA
Surgical injury is associated with significant exposure of host tissues to morphine from both endogenous release as well as its use as a potent analgesic agent. Morphine use in surgical patients exposed to extreme physiologic stress is well established to result in increased infection risk. Although morphine is a known immunosuppressant, whether it directly induces virulence expression and lethality in microbes that colonize the human gut remains unknown.
METHODS
Mice were implanted with a slow release morphine or placebo pellet with and without intestinal inoculation of P. aeruginosa created by direct cecal injection. Mucus production and epithelial integrity was assessed in cecal tissue via Alcian Blue staining and histological analysis. In vivo and in vitro P. aeruginosa virulence expression was examined using reporter strains tagged to the epithelial barrier disrupting protein PA-I lectin. P. aeruginosa chemotaxis toward morphine was also assayed in vitro. Finally the direct effect of morphine to induce PA-I lectin expression was determined in the absence and presence of methylnaltrexone, a mu opioid receptor antagonist.
RESULTS
Mice intestinally inoculated with P. aeruginosa and implanted with a morphine pellet demonstrated significant suppression of intestinal mucus, disrupted intestinal epithelium and enhanced mortality whereas exposure of mice to either systemic morphine or intestinal P. aeruginosa alone enhanced intestinal mucus without mortality suggesting a shift in P. aeruginosa during morphine exposure to a mucus suppressing, barrier disrupting, and lethal phenotype. Direct exposure of P. aeruginosa to morphine in vitro confirmed that morphine can transform P. aeruginosa to a more virulent phenotype that is attenuated in part, by methylnaltrexone.
CONCLUSIONS
Morphine administration shifts intestinal P. aeruginosa to express a virulent phenotype and may play a role in its ability to causes lethal gut-derived sepsis in a susceptible host.
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