Ultrasound is a standard adjunct to the initial evaluation of injured patients in the emergency department. We sought to evaluate the ability of prehospital, in-flight thoracic ultrasound to identify pneumothorax. Non-physician aeromedical providers were trained to perform and interpret thoracic ultrasound. All adult trauma patients and adult medical patients requiring endotracheal intubation underwent both in-flight and emergency department ultrasound evaluations. Findings were documented independently and reviewed to ensure quality and accuracy. Results were compared to chest X-ray and computed tomography (CT). One hundred forty-nine patients (136 trauma/13 medical) met inclusion criteria. Mean age was 44.4 (18-94) years; 69 % were male. Mean injury severity score was 17.68 (1-75), and mean chest injury score was 2.93 (0-6) in the injured group. Twenty pneumothoraces and one mainstem intubation were identified. Sixteen pneumothoraces were correctly identified in the field. A mainstem intubation was misinterpreted. When compared to chest CT (n = 116), prehospital ultrasound had a sensitivity of 68 % (95 % confidence interval (CI) 46-85 %), a specificity of 96 % (95 % CI 90-98 %), and an overall accuracy of 91 % (95 % CI 85-95 %). In comparison, emergency department (ED) ultrasound had a sensitivity of 84 % (95 % CI 62-94 %), specificity of 98 % (95 % CI 93-99 %), and an accuracy of 96 % (95 % CI 90-98 %). The unique characteristics of the aeromedical environment render the auditory element of a reliable physical exam impractical. Thoracic ultrasonography should be utilized to augment the diagnostic capabilities of prehospital aeromedical providers.
BackgroundDamage control surgery has revolutionized trauma surgery. Use of damage control surgery allows for resuscitation and reversal of coagulopathy at the risk of loss of abdominal domain and intra-abdominal complications. Temporary abdominal closure is possible with multiple techniques, the choice of which may affect ability to achieve primary fascial closure and further complication.MethodsA retrospective analysis of all trauma patients requiring damage control laparotomy upon admission to an ACS-verified level one trauma center from 2011 to 2016 was performed. Demographic and clinical data including ability and time to attain primary fascial closure, as well as complication rates, were recorded. The primary outcome measure was ability to achieve primary fascial closure during initial hospitalization.ResultsTwo hundred and thirty-nine patients met criteria for inclusion. Primary skin closure (57.7%), ABThera™ VAC system (ABT) (15.1%), Bogota bag (BB) (25.1%), or a modified Barker’s vacuum-packing (BVP) (2.1%) were used in the initial laparotomy. Patients receiving skin-only closure had significantly higher rates of primary fascial closure and lower hospital mortality, but also significantly lower mean lactate, base deficit, and requirement for massive transfusion. Between ABT or BB, use of ABT was associated with increased rates of fascial closure. Multivariate regression revealed primary skin closure to be significantly associated with primary fascial closure while BB was associated with failure to achieve fascial closure.ConclusionsPrimary skin closure is a viable option in the initial management of the open abdomen, although these patients demonstrated less injury burden in our study. Use of vacuum-assisted dressings continues to be the preferred method for temporary abdominal closure in damage control surgery for trauma.
Background The use of blood products early in the resuscitation of bleeding trauma patients is widely accepted, but made difficult by limited supplies of D− red blood cell (RBC)‐containing products. Use of D+ RBC‐containing products would alleviate this issue, but could lead to alloimmunization. Risk associated with transfusing D+ RBC in emergency bleeding situations is being reconsidered. The level of concern surrounding emergency transfusion as it relates to future fetal harm was surveyed among surgeons and nurses. Methods Faculty and staff in the Departments of Surgery and Nursing were surveyed on the risks of receiving an emergency RBC transfusion and the subsequent potential for fetal harm. Answers were grouped as likely to accept (likely/very likely) or refuse transfusion (unlikely/very unlikely). Participants were compared by sex, and women by child‐bearing age, ([15–50 years] vs. [>50 years]). Results Ninety surveys were initiated with 76 fully completed. Male (n = 39) and female (n = 37) respondents were comparable. Most female respondents (30/37, 81%) were of childbearing age. Overall, both males (38/39, 95%) and females (33/37, 89%; p = .19) were likely to accept a transfusion in an emergency. There was no difference in transfusion acceptance if the risk of fetal harm was presented as 1% (p = .73) or 0.1% (p = .51). Most females (34/37, 92%) were not opposed to transfusion even if there was an unspecified risk of future fetal harm. Conclusion Most of the surgeons and nurses who responded would accept a transfusion in an emergency situation even if it might lead to harming a future fetus.
Sarcopenia is strongly associated with poor outcomes and mortality following injury among the geriatric population. Diagnosis using psoas area is most common but may be unavailable given limited radiographic evaluation following low-impact injuries. Masseter area has recently been identified as an available alternative and associated with 2-year mortality following injury. We sought to validate this measure and its association with early mortality following severe traumatic brain injury (sTBI) using a retrospective analysis of all geriatric trauma patients with sTBI admitted from 2011-2016 to our trauma center. Admission Glasgow Coma Scale (GCS) score ≤8 was used to identify sTBI. Bilateral masseter area was measured 2 cm below the zygomatic arch and the mean used for analysis. Sarcopenia was defined as mean masseter area one standard deviation or less from the sex-based mean. Multivariate models with logistic regression and Cox proportional hazards test followed univariate analysis. Kaplan-Meier survival curves were generated and evaluated by log rank. The primary outcome of interest was 30-day mortality. A total of 108 patients were identified for inclusion. Twenty-five patients, 16 male and nine female, had sarcopenia with mean masseter areas of 2.81 ± 0.45 cm and 2.24 ± 0.42 cm, respectively. Patients with sarcopenia had significantly increased rates of 30-day mortality (80.0% vs. 50.6%; p = 0.01). Sarcopenia (odds ratio [OR], 2.95; 95% confidence interval [CI] 1.03-8.49) and decreasing masseter area were significantly associated with 30-day mortality (OR, 0.66; 95% CI 0.46-0.95) in multivariate modeling. Masseter area is a readily available and objective measure to determine sarcopenia, which is significantly associated with in-creased 30-day mortality following sTBI.
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