BACKGROUND: A wide variety of materials present in current military conflict zones may be implanted and retained as "foreign bodies" or fragments in wounds. Analysis of removed fragments can be valuable to the patient, for research purposes, and for the protection of future potential victims. OBJECTIVES: The objectives were to evaluate the composition of retained fragments in wounds from combat injuries and correlate this information with the mechanism of injury. METHODS: Wound fragments from 10 U.S. military personnel wounded while deployed in Iraq for Operation Iraqi Freedom were removed from their skin and were subjected to gross examination, light microscopy, and scanning electron microscopy/energy-dispersive X-ray analysis (SEM-EDXA), with specimen radiography and infrared spectroscopy if indicated. RESULTS: A variety of exogenous substances, including iron, lead, antimony, copper, aluminum, and acrylonitrile-styrene plastic were detected. No (depleted) uranium was detected. There was a high degree of correlation between the composition of the fragment removed and the wounding event. CONCLUSIONS: Wound fragments may take months to years to manifest. Their gross appearance can be misleading. Establishing the composition of retained materials in wounds may assist in the clinical care of the wounded, provide forensic information, and have broader value in wound analysis and research.
BACKGROUND: A wide variety of materials present in current military conflict zones may be implanted and retained as "foreign bodies" or fragments in wounds. Analysis of removed fragments can be valuable to the patient, for research purposes, and for the protection of future potential victims. OBJECTIVES: The objectives were to evaluate the composition of retained fragments in wounds from combat injuries and correlate this information with the mechanism of injury. METHODS: Wound fragments from 10 U.S. military personnel wounded while deployed in Iraq for Operation Iraqi Freedom were removed from their skin and were subjected to gross examination, light microscopy, and scanning electron microscopy/energy-dispersive X-ray analysis (SEM-EDXA), with specimen radiography and infrared spectroscopy if indicated. RESULTS: A variety of exogenous substances, including iron, lead, antimony, copper, aluminum, and acrylonitrile-styrene plastic were detected. No (depleted) uranium was detected. There was a high degree of correlation between the composition of the fragment removed and the wounding event. CONCLUSIONS: Wound fragments may take months to years to manifest. Their gross appearance can be misleading. Establishing the composition of retained materials in wounds may assist in the clinical care of the wounded, provide forensic information, and have broader value in wound analysis and research.