Background: Preclinical studies have reported significant changes in the gut microbiome after traumatic brain injury (TBI). We hypothesized that TBI induces the growth of Proteobacteria in the human gut. Our primary outcome was to study the profile of the human fecal microbiome after TBI and the secondary outcome was to identify colonization with colistin-resistant and multidrug-resistant pathogens.

Methods: Consecutive patients with moderate-severe TBI admitted to the neurotrauma-intensive care unit within 48 hours of injury were enrolled into this observational study. Samples from rectal swabs obtained on days 0, 3, and 7 after admission were assessed for microbial growth and antibiotic resistance. Demographic data and variables such as hypotension, blood transfusion, surgery, start of nasogastric feeding, use of antibiotics, length of hospital stay and mortality were noted.

Results: One hundred one patients were enrolled into this study; 57 (56.4%) underwent surgery, 80 (79.2%) required blood transfusion, 15 (14.9%) had an episode of hypotension, 37 (36.6%) received enteral feed within the first 3 days, and 79 (78.2%) received antibiotics. Rectal microbiological samples were collected from 101, 95, and 85 patients on days 0, 3, and 7, respectively. All organisms isolated at the 3 time-points belonged to the Proteobacteria phylum, with Enterobacteriaceae forming the largest group. Colistin-resistant organisms were found in 17 (16.8%) of 101 patients and multidrug-resistant organisms in 25 (64.1%) of the 39 patients in whom isolates were tested against the entire panel of antimicrobials.

Conclusion: TBI is associated with widespread colonization with Proteobacteria as early as 48 hours after injury. Colonization with colistin and multidrug-resistant organisms highlights the importance of the judicious use of antibiotics.