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Volume 14, Number 1—January 2008

Letter

Acinetobacter spp. in Gunshot Injuries

Suggested citation for this article

To the Editor: Challenges posed by Acinetobacter spp. result from multidrug resistance, nosocomial spread, and hospital-wide outbreaks (13). We evaluated Acinetobacter spp. infections from gunshot injuries received during the April 2006 East Timor conflict (for a description of these events and further reading, see http://en.wikipedia.org/wiki/2006_east_timorese_crisis).

We reviewed records of 15 injured East Timorese police officers. Median age was 29 years (range 25–45 years); 13 were male. Typical injuries were from multiple high-velocity gunshots and shrapnel. All patients had undergone surgery for stabilization and wound debridement before evacuation to the Royal Darwin Hospital (RDH) in Australia; most had likely received antimicrobial drugs including ampicillin, gentamicin, metronidazole, and ceftriaxone. They arrived at RDH a median of 3 days after injury (range 2–12 days).

The patients were separated from other hospital inpatients on arrival; they were managed as a cohort, they had dedicated nursing staff, and barrier contact precautions were practiced. However, the patients were not routinely screened for colonization with microbiologic organisms. Additional surgical management, including further wound debridement, was performed on 12 of the 15 patients (11 within 48 hours of arrival at RDH); intraoperative samples of bone, soft tissue, and wounds were submitted for culture.

From 13 patients (including all 11 with gunshot wounds), 19 Acinetobacter spp. isolates were recovered. Acinetobacter spp. was cultured from deep wound tissue obtained during surgery from 9 patients. Substantial antimicrobial drug resistance was demonstrated by automated testing (Vitek 2, bioMérieux, Marcy l’Etoile, France) (Table). All 19 Acinetobacter spp. isolates were classified as multidrug resistant (resistant to >3 drug classes) (4). Isolates from 10 of the 13 culture-positive patients (12 of 19 isolates) were resistant to all tested drugs except meropenem and amikacin. Susceptibility testing for tigecycline and tetracycline was not performed. No isolate was metallo-β-lactamase positive by phenotypic analysis according to tablet disk diffusion method using imipenem and imipenem plus EDTA Neo-Sensitabs (Rosco Diagnostica, Taastrup, Denmark). Isolation of Acinetobacter spp. (15 isolates) far exceeded that of other organisms: Stenotrophomonas (5 isolates); Pseudomonas aeruginosa (3 isolates); Staphylococcus aureus and Enterococcus spp. (2 isolates each); and Pseudomonas putida, Enterobacter cloacae, Staphylococcus hemolyticus, and Mycoplasma hominis (1 isolate each).

On the basis of clinical assessment by the treating surgeon and infectious diseases physician, 11 patients were treated for Acinetobacter spp. infection. Patients 1–5 had comminuted compound fractures associated with intraoperative deep wound tissue that was culture positive for Acinetobacter spp. and were treated for osteomyelitis; patients 6–11 were treated for wound infections; patients 6–8 had intraoperative deep wound tissue culture positive for Acinetobacter spp.; patients 9–10 had superficial wound swabs that were culture positive; and patient 11 had a positive culture from a nonsurgical site. Of these 11 patients, 4 had fever >38°C on the day of admission to RDH (2 of whom had a leukocyte count >20,000/μL), and another 2 had visible pus, necrotic tissue, or both. The surgical approach to these patients involved delayed wound closure; fracture fixation; vacuum dressings; and skin, bone, and nerve grafts. Choice and duration of antimicrobial drug therapy was guided by susceptibility testing and experience (4). Presumed osteomyelitis caused by multidrug-resistant (MDR) Acinetobacter spp. was treated with meropenem in combination with amikacin for at least 2 weeks, followed by another 2 weeks of meropenem monotherapy. Wound infections were similarly treated with combination therapy initially, but amikacin was stopped earlier. No aminoglycoside toxicity was observed. Treatment was stopped at 4 weeks if no signs of infection were present (healed wound plus apyrexia and a C-reactive protein level <20 mg/L). Patient 12 was colonized with MDR Acinetobacter spp. and was treated for aspiration pneumonia; patient 13 had MDR Acinetobacter spp. colonization of a central venous catheter.

Follow-up after completion of therapy ranged from 4 to 23 weeks. No patients had recurrence of infection or isolation of Acinetobacter spp. Defining osteomyelitis and wound infection caused by Acinetobacter spp. was problematic for clinicians (46), and some assumed infections may have represented colonization. Because treatment for MDR Acinetobacter spp. in this setting can be protracted and toxic (e.g., from aminoglycosides), our review highlights the potential benefits of applying prospectively documented criteria such as abnormal bone histologic findings for osteomyelitis and a workable definition of deep tissue infection to better guide treatment decisions.

RDH had not experienced outbreaks of healthcare-associated infection or colonization with MDR Acinetobacter spp. before or after (as of January 1, 2007) the 2006 East Timor conflict, except for positive isolates from 5 patients evacuated from the Bali bombings of 2002 and 2005. Because all but 1 isolate were recovered within 48 hours of admission, primary inoculation of Acinetobacter spp. into wounds is assumed to have occurred either at the time of injury (from environmental sources or preexisting skin colonization), from nosocomial transmission in East Timor (before transfer to RDH), or during evacuation to RDH. Environmental and patient-based screening at sites of primary care may help resolve the uncertainty of which source is most likely.

James W.T. Elston*, Ciaran L. Bannan†, Desmond T. Chih†, and Craig S. Boutlis‡Comments to Author 
Author affiliations: *Castle Hill Hospital, Cottingham, East Yorkshire, United Kingdom; †Royal Darwin Hospital, Darwin, Northern Territory, Australia; ‡Charles Darwin University, Darwin, Northern Territory, Australia;

Acknowledgment

We gratefully acknowledge the assistance of Gary Lum, Alison Ratcliff, Hog Mei Khor, Claire Italiano, Paul Southwell, and Patrick Bade in the preparation of this article.

References

  1. Fournier PE, Richet H. The epidemiology and control of Acinetobacter baumannii in health care facilities. Clin Infect Dis. 2006;42:6929. DOIPubMed
  2. Jones A, Morgan D, Walsh A, Turton J, Livermore D, Pitt T, Importation of multidrug-resistant Acinetobacter spp. infections with casualties from Iraq. Lancet Infect Dis. 2006;6:3178. DOIPubMed
  3. Joly-Guillou ML. Clinical impact and pathogenicity of Acinetobacter. Clin Microbiol Infect. 2005;11:86873. DOIPubMed
  4. Davis KA, Moran KA, McAllister CK, Gray PJ. Multidrug-resistant Acinetobacter extremity infections in soldiers. Emerg Infect Dis. 2005;11:121824.PubMed
  5. Martin RW, Martin DL, Levy CS. Acinetobacter osteomyelitis from a hamster bite. Pediatr Infect Dis J. 1988;7:3645. DOIPubMed
  6. Volpin G, Krivoy N, Stein H. Acinetobacter sp. osteomyelitis of the femur: a late sequel of unrecognized foreign body implantation. Injury. 1993;24:3456. DOIPubMed

Table

Suggested citation for this article: Elston JWT, Bannan CL, Chih DT, Boutlis CS. Acinetobacter spp. in gunshot injuries [letter]. Emerg Infect Dis [serial on the Internet]. 2008 Jan [date cited]. Available from http://wwwnc.cdc.gov/eid/article/14/1/07-0878.htm

DOI: 10.3201/eid1401.070878

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Table of Contents – Volume 14, Number 1—January 2008

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