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BACKGROUND: The Joint Commission reports that at least half of communication breakdowns occur during handovers or transitions of care. There is no consensus on how best to approach the transfer of care within acute care surgery (ACS). We conduct a systematic review and meta-analysis of the current data on handoffs and transitions of care in ACS patients and evaluate the impact of standardization and formalized communication processes. METHODS: Clinically relevant questions regarding handoffs and transitions of care with clearly defined patient Population(s), Intervention(s), Comparison(s), and appropriately selected Outcomes were determined. These centered around specific transitions of care within the setting of ACS, specifically perioperative interactions, emergency medical services and trauma team interactions, and intra/interfloor and intensive care unit (ICU) interactions. A systematic literature review and meta-analysis were conducted using the Grading of Recommendations Assessment, Development, and Evaluation methodology. RESULTS: A total of 10 studies were identified for analysis. These included 5,113 patients in the standardized handoff group and 5,293 in the current process group. Standardized handoffs reduced handover errors for perioperative interactions and preventable adverse events for intra/interfloor and ICU interactions. There were insufficient data to evaluate outcomes of clinical complications and medical errors. CONCLUSION: We conditionally recommend a standardized handoff in the field of ACS, including perioperative interactions, emergency medical services and trauma team interactions, and intra/interfloor and ICU interactions. LEVEL OF EVIDENCE: Systematic Review/Meta-analysis; Level III.

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INTRODUCTION: One of the advantages of partial Resuscitative Endovascular Balloon Occlusion of the Aorta (pREBOA) compared to the original model is the mitigation of reperfusion injury. The safety and efficacy of pREBOA have not been demonstrated in the setting of aeromedical evacuation. We hypothesized that the pREBOA would result in less ischemia-reperfusion injury after altitude exposure. METHODS: Twenty-four swine underwent femur fracture with hemorrhage for 20 min, followed by resuscitative endovascular balloon occlusion of the aorta (REBOA) deployment to Zone 1 and were randomized to pREBOA-PRO (Prytime Medical Devices Inc) full inflation, partial inflation, or sham inflation and then an altitude exposure of ground level or 8000 ft for 15 min. The primary endpoint was to examine if the balloon functioned at altitude. Our secondary endpoint was investigating evidence of ischemia-reperfusion by hemodynamic instability, electrolyte derangements, and acidosis. Comparisons were made by ANOVA. RESULTS: After deflation, the partially inflated group maintained a higher mean arterial pressure (MAP) compared to fully inflated group (P = 0.026). Full REBOA pigs were more tachycardic compared to sham pREBOA at ground (P < 0.001) and this was exacerbated at altitude (P < 0.001). Full REBOA pigs were more acidotic than sham and pREBOA at ground pigs (P = 0.0006 and P = 0.0002, respectively). Altitude increased the acidosis in full REBOA pigs, resulting in a greater base deficit (P < 0.0001), lactate (P < 0.0001), and IL-6 (P = 0.006). CONCLUSIONS: PREBOA resulted in less severe ischemia-reperfusion injury at both altitude and ground, while full balloon inflation at altitude exacerbated acidosis and ischemia-reperfusion injury. Efforts should therefore be made to utilize partial balloon occlusion when employing the REBOA catheter.

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BACKGROUND: COVID-19, caused by SARS CoV-2, is an acute respiratory viral illness. We present the experience of treating patients hospitalized with COVID-19 in a Role 3 hospital in an active warzone. METHODS: This is a retrospective care series of patients treated for COVID-19 at Craig Joint Theater Hospital, Bagram, Afghanistan from May to August 2020. Data extracted included demographics, admission and disposition information, past medical history, comorbidities, Transportation Command (TRANSCOM) severity classification (i.e. Category A, Category B), and treatments received. RESULTS: This series included 15 Category A and 55 Category B patients. Most patients were non-US contractors with one chronic condition. Most patients received medical treatments in accordance with Department of Defense Practice Management Guidelines. For Category A patients, mechanical ventilation use declined from a mean average of 10.67 days to 2.83 days following the introduction of high-flow nasal cannula. Average hospital length of stay was 6 days (range 2-23). One death occurred in a patient greater than 60 years old with three known prior medical conditions. Most patients were discharged to a non-medical isolation facility. Aeromedically evacuated patients were mostly US military and US contractors. CONCLUSION: We faced several challenges including retrofitting a Role 3 facility designed for trauma care for management of a highly contagious respiratory viral illness. Logistics constraints impacted timely delivery of medical therapies and equipment and decreased efficiency of aeromedical evacuation. Despite these challenges and the simultaneous trauma mission, most patients received medical care in accordance with treatment guidelines with a low mortality rate.

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BACKGROUND: Noncompressible torso hemorrhage remains a leading cause of death. Resuscitative Endovascular Balloon Occlusion of the Aorta (REBOA) placement may occur before transport; however, its efficacy has not been demonstrated at altitude. We hypothesized that changes in altitude would not result in blood pressure changes proximal to a deployed REBOA. METHODS: A simulation model for 7Fr guidewireless REBOA was used at altitudes up to 22,000 feet. Female pigs then underwent hemorrhagic shock to a mean arterial pressure (MAP) of 40 mm Hg. After hemorrhage, a REBOA catheter was deployed in the REBOA group and positioned but not inflated in the no-REBOA group. Animals underwent simulated aeromedical evacuation at 8000 ft or were left at ground level. After altitude exposure, the balloon was deflated, and the animals were observed. RESULTS: Taking the REBOA catheter to 22,000 ft in the simulation model resulted in a lower systolic blood pressure but a preserved MAP. In the porcine model, REBOA increased both systolic blood pressure and MAP compared with no-REBOA (P < 0.05) and was unaffected by altitude. No differences in postflight blood pressure, acidosis, or systemic inflammatory response were observed between ground and altitude REBOA groups. CONCLUSIONS: REBOA maintained MAP up to 22,000 feet in an inanimate model. In the porcine model, REBOA deployment improved MAP, and the balloon remained effective at altitude.

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Enteral nutrition (EN) is widely used in intensive care units around the world, but the optimal dosing strategy during the first week of critical illness is still controversial. Numerous studies in the past decade have provided conflicting recommendations regarding the roles of trophic and permissive/intentional underfeeding strategies. Further complicating effective medical decision making is the widespread, yet unintentional and persistent underdelivery of prescribed energy and protein, in addition to the trend for recommending ever-higher amounts of protein delivery. We postulate that the key to appropriate enteral strategy lies within an accurate and patient-specific assessment. Patients with a baseline high nutrition risk and those with increased nutrition demands, such as those with wounds, surgery, or burns, likely require full nutrition support, in contrast with medical patients, such as those with acute respiratory distress syndrome, who may selectively be appropriate for trophic strategies. In this analysis, we review several key trials for and against full EN in the first week of critical illness, as well as key issues such as the role of autophagy and immunonutrition in enteral dose selection.

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