Anti-anaerobic antibiotics associated with increased risk of mortality in critically ill patients
A common clinical practice may be inadvertently harming patients, according to new research published October 13 in the European Respiratory Journal. The team of Michigan Medicine researchers behind the study suggest that administration of antibiotics with activity against anaerobic bacteria has a profound effect on the gut microbiome and, ultimately, an adverse impact on critically ill patients.
“We talk about the gut microbiome as a metabolic and immune ‘organ,’ and when we give patients anti-anerobic antibiotics, I worry we are causing a hidden form of organ failure,” said senior author Robert Dickson, M.D., Associate Professor in Pulmonary and Critical Care Medicine and Deputy Director at the Weil Institute for Critical Care Research and Innovation at the University of Michigan. “Our research suggests that depleting the gut of these ‘good bugs’ may be contributing to worse clinical outcomes.”
In the paper, researchers found that, in critically ill patients, the practice of early administration of anti-anaerobic antibiotics is commonplace—about two-thirds of the 3,032 patients observed in the study’s cohort received such treatment.
“For sick patients in the Emergency Department and Intensive Care Unit, there has been a lot of focus on ‘time-to-antibiotics’ as a quality improvement measure,” said Dickson. “Our results demonstrate that antibiotics really can’t be considered a single entity, as they have widely different impacts on the microbiome and on our patients. Patients who received anti-anaerobic antibiotics did far worse than patients who didn’t. We think that which antibiotic is given probably matters more than how quickly they are administered.”
The researchers conducted a retrospective single-center cohort study of 3,032 critically ill patients, comparing those who did and did not receive early anti-anaerobic antibiotics. By comparing ICU outcomes in all patients, and changes in gut microbiota in 116 of the patients, they found that those who received anti-anaerobic antibiotics early in their hospital course had worse outcomes, whether measured in overall survival, infection-free survival, or pneumonia-free survival.
The authors also found dramatic consequences of these antibiotics on the gut microbiome—during hospitalization, patients who received anti-anaerobic antibiotics had decreased initial gut bacterial density, followed by increased expansion and domination of the microbiome Enterobacteriaceae (a genus of common bacteria, many of which are pathogenic and cause opportunistic infections in immunocompromised hosts). These findings confirm that anti-anaerobic antibiotics have a dramatic effect on gut bacterial communities.
While the primary findings were from an observational study in humans, the team confirmed the results using animal modeling. In two different mouse models (pneumonia and oxygen-induced lung injury), animals who were treated with anti-anaerobic antibiotics did worse. Anti-anaerobic antibiotics increased the susceptibility of mice to pneumonia due to Enterobacteriaceae and increased their mortality from oxygen toxicity.
Co-author Rishi Chanderraj, M.D., a Clinical Lecturer in Infectious Diseases at U-M, was the lead researcher on the initial project and will be carrying the work forward in future studies.
“In observational studies, there is always a risk that a mortality difference is due to confounding; maybe the patients who received anti-anaerobic antibiotics were just sicker,” he said. “But the fact that we were able to recapitulate these findings in two different animal models gives us confidence that these findings are real.”
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