Infectious complications of damage control orthopedics in war trauma.

BACKGROUND: War-trauma, especially due to blast injury, can be associated with long bone fracture. Immediate external fixation of fractures, followed by internal fixation when the patient is medically stabilized (damage control orthopedics [DCO]), is the U.S. Army policy for war-related fractures. Data on infectious outcomes when DCO is used for war-trauma fractures are scant. METHODS: A retrospective review of U.S. war-trauma patients from 2003 to 2007 with femoral or tibial fractures treated by DCO was conducted. Fisher's Exact and Mann-Whitney tests were used for comparisons. RESULTS: Fifty-eight soldiers were identified. Fifty-five were males with a median age of 26 years (19-54 years) and a median time to internal fixation by intramedually nailing of 9 days (4-414 days). Eighty-eight percent of fractures were open, and 57% were femoral fractures. The median duration of follow-up was 447 days (20-1,340 days). Fracture site infection occurred in 40% (23 of 58), with suspected osteomyelitis in 17% (10 of 58). Of infected nails, fracture union occurred in 70% and nail retention in 57%. Median time to infection after nail placement was 15 days (0-717 days) with 75% of infections occurring by day 113. Multiple bacterial pathogens including Acinetobacter baumannii and Staphylococcus spp. were causative organisms. Blast injuries occurred in 91% of infected versus 47% of uninfected (p = 0.005). There was no difference between infections occurring in femoral (61%) versus tibial (39%) (p = 0.620) location. CONCLUSIONS: Infection was associated with 40% of DCO-associated intramedullary nails. Blast injury was a predictor of infection. Despite infection, fracture union and nail retention rates were high, suggesting a good outcome.

Suspected pulmonary tuberculosis exposure at a remote U.S. army camp in northeastern Afghanistan, 2007.

Military personnel serving at remote camps in the border regions of northeastern Afghanistan may experience crowded living conditions and may have frequent interaction with local national (LN) workers, increasing the risk of exposure to multiple endemic diseases including tuberculosis (TB). In January 2007, pulmonary TB was clinically suspected in a LN worker who had close contact with a company of 92 U.S. Army personnel at a remote camp in Konar province, Afghanistan, over 4 months. This report describes the results of the contact investigation conducted by the U.S. Army, in which four U.S. personnel were found to have evidence of TB exposure. This investigation raises concerns arising from the high prevalence of drug-resistant TB in the region and in neighboring North West Frontier Province, Pakistan, and demonstrates the challenges of conducting contact investigations and using LN workers in deployed wartime environments.

Q fever: epidemiology, diagnosis, and treatment.

Q fever, a zoonosis caused by Coxiella burnetii, is seen throughout the world. Recent reports suggest that its incidence in the United States is increasing, with more than 30 cases reported in the US military. The disease has many acute and chronic manifestations. Endocarditis is the most common form of chronic disease, and recent studies have led to substantial changes in the approach to its diagnosis and treatment. Military and civilian health care professionals need to consider Q fever when evaluating patients with appropriate geographic exposures and clinical presentations to prevent delays in diagnosis and treatment.

Defective DNA repair as a potential mechanism for the rapid development of drug resistance in Plasmodium falciparum.

The development and spread of highly drug-resistant parasites pose a central problem in the control of malaria. Understanding mechanisms that regulate genomic stability, such as DNA repair, in drug-resistant parasites and during drug treatment may help determine whether this rapid onset of resistance is due to an increase in the rate at which resistance-causing mutations are generated. This is the first report to demonstrate DNA repair activities from the malaria-causing parasite Plasmodium falciparum that are specific for ultraviolet light-induced DNA damage. The efficiency of DNA repair differs dramatically among P. falciparum strains with varying drug sensitivities. Most notable is the markedly reduced level of repair in the highly drug-resistant W2 isolate, which has been shown to develop resistance to novel drugs at an increased rate when compared to drug-sensitive strains. Additionally, the antimalarial drug chloroquine and other quinoline-like compounds interfered with the DNA synthesis step of the repair process, most likely a result of direct binding to repair substrates. We propose that altered DNA repair, either through defective repair mechanisms or drug-mediated inhibition, may contribute to the accelerated development of drug resistance in the parasite.

Mechanisms for linezolid-induced anemia and thrombocytopenia.

BACKGROUND: Linezolid has been associated with anemia and thrombocytopenia. Mechanisms for neither have been elucidated. OBJECTIVE: To propose mechanisms for linezolid-induced anemia and thrombocytopenia. CASE SUMMARY: A 78-year-old white woman with Staphylococcus epidermidis endocarditis was treated with linezolid after developing resistance to multiple antibiotic regimens. After 7 days of linezolid therapy, she developed thrombocytopenia, while an anemia present since admission remained unchanged. A bone marrow biopsy was performed, primarily looking for a mechanism for the thrombocytopenia. Histopathology revealed adequate megakaryocytes, ringed sideroblasts, and vacuolated pronormoblasts. A course of immune globulin (IVIG) was administered, with slowing in the rate of decline in platelets. She died 24 hours after her last dose of IVIG of congestive heart failure. DISCUSSION: The presence of ringed sideroblasts and vacuolated pronormoblasts suggests that linezolid-induced anemia is secondary to a chloramphenicol-like suppression of erythropoiesis. The presence of adequate, normal-appearing megakaryocytes suggests immune-mediated thrombocytopenia, not marrow suppression. Although the response to IVIG is difficult to interpret because of the patient's death, there was a slowing in the rate of decline of the platelet count, further supporting immune-mediated thrombocytopenia. An objective causality assessment indicated that the adverse drug event was probably due to linezolid. CONCLUSIONS: There appear to be 2 distinct mechanisms for linezolid-induced cytopenias. While anemia is reversible and manageable with transfusions, thrombocytopenia can be a treatment-limiting toxicity. The ability to treat through an immune-mediated cytopenia with IVIG may be beneficial for critically ill patients with few therapeutic options.