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e services to anywhere at any time in support of garrison medicine, operational medicine, and mass casualty settings. An interoperable, flexibly staffed, and rapidly expandable TCC network must be further developed given the potential for large casualty volumes to overwhelm a single TCC provider with multiple duties. Lessons learned from development of this capability should have applicability for managing military and civilian mass casualty events.

Ex vivo normothermic limb perfusion (EVNLP) provides several advantages for the preservation of limbs following amputation the ability to maintain oxygenation and temperature of the limb close to physiological values, a perfusion solution providing all necessary nutrients at optimal concentrations, and the ability to maintain physiological pH and electrolytes. However, EVNLP cannot preserve the organ viability infinitely. We identified evidence of mitochondrial injury (swelling, elongation, and membrane disruption) after 24 hours of EVNLP of human upper extremities. The goal of this study was to identify metabolic derangements in the skeletal muscle during EVNLP.

Fourteen human upper extremities were procured from organ donors after family consent. Seven limbs underwent EVNLP for an average of 41.6 ± 9.4 hours, and seven contralateral limbs were preserved at 4°C for the same amount of time. Muscle biopsies were performed at 24 hours of perfusion, both from the EVNLP and control limbs. Perturbations in theic derangement toward the end of perfusion, which correlated with detection of altered mitochondrial structure, swelling, and elongation.

Early and adequate administration of enteral nutrition (EN) improves outcomes in critical care patients. However, the environment where Critical Care Air Transport teams provide patient care poses particular challenges to achieving the same standard of nutritional support readily administered in civilian intensive care units. Providing the highest standard of nutritional care in austere military environments remains the goal for all patients despite inherent challenges. Enteral nutrition, specifically, is not currently a standard of practice in-flight because of concerns for microaspiration and the associated risk of developing ventilator-associated pneumonia. Clinical concern for aspiration combines with the lack of an EN pump approved for use through Safe-to-Fly testing to further decrease the likelihood of initiating EN in trauma patients. Early EN significantly reduces morbidity and mortality risks; therefore, the lack of nutritional support is contrary to established standards of care in civilian inten in this population.

Overall, the consensus of the literature supports that early evaluation and initiation of standard EN feeding protocols on the ground and during transport improves patient outcomes and enhances injury recovery. However, additional research will determine the current number of patients fed in-flight along with the actual risks and benefits of EN in this population.

With blunt and penetrating trauma to the chest, warfighters and civilians frequently suffer from punctured lung (pneumothorax) and/or bleeding into the pleural space (hemothorax). Optimal management of this condition requires the rapid placement of a chest tube to evacuate as much of the blood and air as possible. Incomplete drainage of blood leading to retained hemothorax may be the result of the final tube tip position not being in contact with the blood collections. To address this problem, we sought to develop a “steerable” chest tube that could be accurately placed or repositioned into a specific desired position in the pleural space to assure optimal drainage. An integrated infusion cannula was added for the instillation of anticoagulants to maintain tube patency, thrombolytics for clot lysis, and analgesics for pain control if required.

A triple-lumen tube was designed to provide a channel for a pull-wire which was wound around an axle integrated into a small proximal handle and controlled by a ratng.

Initial preliminary studies on a novel steerable chest tube have demonstrated the ability to appropriately position the tube in a desired location. The addition of an extendable cannula will allow for safe clot lysis or maintained tube patency. Additional studies are planned to confirm the benefit of this device in preventing retained hemothorax.

Initial preliminary studies on a novel steerable chest tube have demonstrated the ability to appropriately position the tube in a desired location. The addition of an extendable cannula will allow for safe clot lysis or maintained tube patency. Additional studies are planned to confirm the benefit of this device in preventing retained hemothorax.

Hypocalcemia is a known sequela of citrated blood product transfusion. Civilian data suggest hypocalcemia on hospital admission is associated with worse outcomes. Initial calcium levels in military casualties have not previously been analyzed. The objective of this retrospective review aimed to assess the initial calcium levels in military trauma casualties at different Forward Surgical Teams (FST) locations in Afghanistan and describe the effects of prehospital blood product administration on arrival calcium levels.

This is a retrospective cohort analysis of military casualties arriving from point of injury to one of two FSTs in Afghanistan from August 2018 to February 2019 split into four locations. The primary outcome was incidence of hypocalcemia (ionized calcium < 1.20 mmol/L).

There were 101 patients included; 55 (54.5%) experienced hypocalcemia on arrival to the FST with a mean calcium of 1.16 mmol/L (95% confidence interval [CI], 1.14 to 1.18). The predominant mechanism of injury consisted ofood products. GSK 4529 Blast injuries may confer an increased risk of developing hypocalcemia. This data support earlier use of calcium supplementation during resuscitation.

Successful tourniquet application increases survival rate of exsanguinating extremity hemorrhage victims. Tactile feedback during tourniquet application training should reflect human tissue properties in order to increase success in the field. This study aims to understand the mechanical properties of a human limb during tourniquet application.

Six cadaveric extremities-three uppers and three lowers-were tested from three body mass index groups low (<19) healthy (19-24), and overweight (>24). Each specimen donned with a tourniquet and mounted to a servo-hydraulic testing machine, which enabled controlled tightening of the tourniquet while recording the tourniquet tension force and strap displacement. A thin-film pressure sensor placed between the specimen and the tourniquet recorded contact pressure. Each limb was tested with the tourniquet applied at two different sites resulting in testing at the upper arm, forearm, thigh, and shank.

The load displacement curves during radial compression were found to be nonlinear overall, with identifiable linear regions.