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Retrieval of ferromagnetic fragments from the lung using video-assisted thoracoscopic surgery and magnetic tool: a case report of combat patient injured in the war in Ukraine.
International Journal of Emergency Medicine 2023 August 25
BACKGROUND: Gunshot wounds injury to the thorax is common in armed conflicts or war, including the war of Russia against Ukraine. Injury to the chest is associated with a high mortality or physical disability due to damage to the lungs, heart, and major vessels. The aim of this report is to demonstrate a case of successful management of severe gunshot injury to the lungs using video-assisted thoracoscopic surgery and magnetic tool for a combat patient injured in the war in Ukraine.
CASE PRESENTATION: A 51-year-old soldier of the Armed Forces of Ukraine received a gunshot injury due to shelling from artillery strikes in the Donbas battlefield area. After evacuation to Level II, a forward surgical team performed primary surgical debridement. Two hours after the injury, the patient was evacuated to the Level IV of medical care (Kharkiv). At Level IV, a CT scan showed penetrating gunshot wounds to the left part of the chest with injury to the upper lobe of the left lung with the presence of the 2 metal fragments of the artillery projectile with the size of 2.5 × 2.0 cm and 1.0 × 1.0 cm. These two fragments were removed by using video-assisted thoracoscopic surgery (VATS) using the inlet gunshot hole in the left lateral chest area, as well as the assistance of a magnetic tool.
CONCLUSIONS: VATS and magnetic technologies should be considered for hemodynamically stable combat patients with a gunshot injury to the lungs in the ongoing war. Each combat patient could be treated by individualized approach such as using the wound canal as a scope port after primary surgical debridement of the wound and antibiotic prophylaxis.
CASE PRESENTATION: A 51-year-old soldier of the Armed Forces of Ukraine received a gunshot injury due to shelling from artillery strikes in the Donbas battlefield area. After evacuation to Level II, a forward surgical team performed primary surgical debridement. Two hours after the injury, the patient was evacuated to the Level IV of medical care (Kharkiv). At Level IV, a CT scan showed penetrating gunshot wounds to the left part of the chest with injury to the upper lobe of the left lung with the presence of the 2 metal fragments of the artillery projectile with the size of 2.5 × 2.0 cm and 1.0 × 1.0 cm. These two fragments were removed by using video-assisted thoracoscopic surgery (VATS) using the inlet gunshot hole in the left lateral chest area, as well as the assistance of a magnetic tool.
CONCLUSIONS: VATS and magnetic technologies should be considered for hemodynamically stable combat patients with a gunshot injury to the lungs in the ongoing war. Each combat patient could be treated by individualized approach such as using the wound canal as a scope port after primary surgical debridement of the wound and antibiotic prophylaxis.
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