Articles: trauma.
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Preservation of life, preservation of limb, and preservation of eyesight are the priorities for military medical personnel when attending to casualties. The incidences of eye injuries in modern warfare have increased significantly, despite personal eye equipment for service members. Serious eye injuries are often overlooked or discovered in a delayed fashion because they accompany other life- and limb-threatening injuries, which are assigned a higher priority. Prehospital military ocular trauma care is to shield the eye and evacuate the casualty to definitive ophthalmic care as soon as possible, with exceptions for treatment of ocular chemical injury and orbital compartment syndrome. Retrospective analysis of eye injuries in recent conflicts identified gaps in clinical capabilities with up to 96% of ocular injuries being suboptimally managed. Ocular compartment syndrome (OCS) is a complication associated with orbital hemorrhage, where significant morbidity occurs as a result of increasing intracompartment pressure. The ischemic tolerance of the retina and optic nerve is approximately 90 minutes, so OCS must be rapidly diagnosed and aggressively treated through lateral canthotomy/cantholysis (LC/C) to prevent permanent vision loss. LC/C procedures consist of using hemostats to crush the lateral canthal fold and cutting the lateral canthal tendon from the inferior crus to relieve increasing intracompartment pressure. The purpose of this study was to examine the baseline capabilities of military physicians and surgeons to accurately and independently perform the LC/C procedures and identify performance gaps that could be closed through focused professional development activities. ⋯ We identified significant performance gaps among emergency medicine physicians, general surgeons, and ophthalmologists in their abilities to recognize and treat OCS through LC/C procedures. These sight-saving procedures are a critical competency for forward-situated clinicians in expeditionary contexts. We identified the need for targeted approaches to professional development for closing the performance gaps for both emergency medicine physicians and general surgeons.
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Traumatic brain injury (TBI) is a leading cause of morbidity and mortality in both adult civilian and military populations. Currently, diagnostic and prognostic methods are limited to imaging and clinical findings. Biomarker measurements offer a potential method to assess head injuries and help predict outcomes, which has a potential benefit to the military, particularly in the deployed setting where imaging modalities are limited. We determine how biomarkers such as ubiquitin C-terminal hydrolase-L1 (UCH-L1), glial fibrillary acidic protein (GFAP), S100B, neurofilament light chain (NFL), and tau proteins can offer important information to guide the diagnosis, acute management, and prognosis of TBI, specifically in military personnel. ⋯ TBI occurs frequently in the military and civilian settings with limited methods to diagnose and prognosticate outcomes. We highlighted several promising biomarkers for these purposes including S100B, UCH-L1, NFL, GFAP, and tau proteins. S100B and UCH-L1 appear to have the strongest data to date, but further research is necessary. The robust data that explain the optimal timing and, more importantly, trending of these biomarker measurements are necessary before widespread application.
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Critical Care Internal Medicine (CCIM) is vital to the U.S. Military as evidenced by the role CCIM played in the COVID-19 pandemic response and wartime operations. Although the proficiency needs of military surgeons have been well studied, this has not been the case for CCIM. The objective of this study was to compare the patient volume and acuity of military CCIM physicians working solely at Military Treatment Facilities (MTFs) with those at MTFs also working part-time in a military-civilian partnership (MCP) at the University Medical Center of Southern Nevada (UMC). ⋯ The volume and acuity of critical care at MTFs may be insufficient to maintain CCIM proficiency under the current system. Military-civilian partnerships are invaluable in maintaining clinical proficiency for military CCIM physicians and can be done on a part-time basis while maintaining beneficiary care at an MTF. Future CCIM expeditionary success is contingent on CCIM physicians and team members having the required CCIM exposure to grow and maintain clinical proficiency.Limitations of this study include the absence of off-duty employment (moonlighting) data and difficulty filtering military data down to just CCIM physicians, which likely caused the MTF CCIM data to be overestimated.
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Journal of neurosurgery · May 2024
Early GFAP and UCH-L1 point-of-care biomarker measurements for the prediction of traumatic brain injury and progression in patients with polytrauma and hemorrhagic shock.
Traumatic brain injury (TBI) and hemorrhage are responsible for the largest proportion of all trauma-related deaths. In polytrauma patients at risk of hemorrhage and TBI, the diagnosis, prognosis, and management of TBI remain poorly characterized. The authors sought to characterize the predictive capabilities of glial fibrillary acidic protein (GFAP) and ubiquitin C-terminal hydrolase L1 (UCH-L1) measurements in patients with hemorrhagic shock with and without concomitant TBI. ⋯ Early measurements of GFAP and UCH-L1 on a point-of-care device are significantly associated with CT-diagnosed TBI in patients with polytrauma and shock. Early elevated GFAP measurements are associated with worse head CT scan Rotterdam scores, TBI progression, and worse GOSE scores, and these associations are independent of other injury attributes, shock severity, and early resuscitation characteristics.