J Trauma
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We have used single-contrast (intravenous contrast only) computed tomography (SCCT) for triaging hemodynamically stable patients with penetrating torso trauma. We hypothesized that SCCT safely determines the need for operative exploration. Furthermore, trauma surgeons without specialized training in body imaging can accurately apply this modality. ⋯ SCCT is safe and effective for triaging hemodynamically stable patients with penetrating torso trauma. It successfully determined the need for operative intervention with appropriate clinical accuracy without the additional costs, morbidity, and delay of oral and rectal contrast. Trauma surgeons can reproducibly interpret SCCT with high-predictive accuracy as to whether patients with penetrating torso trauma require operative exploration.
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Optimal timing and treatment of patients with concomitant head, thoracic, or abdominal injury and femoral shaft fracture remain controversial. This study examines acute patient outcomes associated with early total care with intramedullary nailing (ETC group) versus damage control external fixation (DCO group) for multiple-injured patients with femoral shaft fractures. We propose DCO as a safe initial treatment for the multiple-injured patient with femur shaft fractures. ⋯ Fracture fixation method did not have an impact on the incidence of systemic complications in multiple-injured patients with femoral shaft fractures. Although minimal differences were noted between DCO and ETC groups regarding systemic complications, DCO is a safer initial approach, significantly decreasing the initial operative exposure and blood loss.
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Controlled Clinical Trial
Enhancing patient safety in the trauma/surgical intensive care unit.
Preventable deaths due to errors in trauma patients with otherwise survivable injuries account for up to 10% of fatalities in Level I trauma centers, 50% of these errors occur in the intensive care unit (ICU). The root cause of 67% of the Joint Commission sentinel events is communication errors. The objective is (1) to study how critical information degrades and how it is lost over 24 hours and (2) to determine whether a structured checklist for ICU handoffs prevents information loss. ⋯ Critical information is degraded over 24 hours in the ICU. A structured checklist significantly reduces patient errors due to lost information and communication lapses between trauma ICU team members at handoffs of care.
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A variety of operative techniques have been described in the past for the surgical stabilization of fractured ribs. ⋯ Patients demonstrated low levels of pain and satisfactory rehabilitation. The Inion OTPS system has several advantages including gradual transference of stress loads to bone, micromotion across the fracture site, and easy wrapping of comminuted fractures. This technique allows excellent stabilization of fractured ribs, with good clinical results in ambulant and ventilated patients, both with initial and with midterm follow-up.
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The aim of this study was to test the hypothesis that inhibitory substances circulating in the patient's serum after trauma might impair leukocyte function by evaluating the effect of such serum on cytokine release in a whole blood model. ⋯ Our data show that in trauma patients, serum expresses activity that inhibits LPS and PepG induced release of TNF-alpha in a whole blood model, and our study, then, corroborates the hypothesis that inhibitory substances circulating in the patients' serum after trauma impair leukocyte function.