Military medicine
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The first period of military service consists of a physically and mentally challenging basic combat training (BCT) program. Factors like demanding physical exercise, limited recovery time, and restricted diet choice and food intake may challenge iron intake and homeostasis in recruits undergoing BCT. Iron-deficient individuals may experience reduced work capacity, fatigue, weakness, frequent infections, and increased injury risk. Limited knowledge is available on the extent of this potential health risk among military recruits. The aim of the present study was to systematically review published studies on the prevalence and change in prevalence of anemia, iron deficiency (ID), and ID anemia (IDA) among recruits undergoing BCT. ⋯ The prevalence of anemia, ID, and IDA in military recruits seems not to be affected by the completion of BCT shorter than 16 weeks, whereas the effects of longer BCT durations remain unclear. Even though body iron homeostasis seems unaffected, adequate energy and nutritional intake should remain a priority. Future research could focus on dietary interventions to determine the optimal diet among female recruits in specifically exposed populations.
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Despite the use of body armor, emergency operable pulmonary trauma (EOPT) remains a major cause of battlefield morbidity and mortality. While EOPT during military conflicts has some features that distinguish it from EOPT in civilian settings, the 2 occurrences demonstrate overall parallel findings related to presentation, management, and outcome. The goals of the present study were to provide a descriptive analysis of the nature of EOPT and its management at a level 1 trauma center and to determine the associations between EOPT patient demographics and/or patient management and outcome in order to better understand battlefield EOPT. ⋯ The most common indication for EOPT surgery was uncontrolled hemorrhage. The most frequent operation performed for this EOPT cohort was a laparotomy for diaphragmatic repair. A total of 91.5% of EOPT surgery was performed without OLV, an unexpected finding. When OLV occurred, it was equally likely to involve an SLETT with mainstem bronchus insertion, an SLETT with bronchial blocker, or a double-lumen endotracheal tube. The most common indication for OLV was surgical exposure. More extensive injury (expressed as an injury severity score), preadmission endotracheal intubation, and a shorter time from EOPT to operating room arrival were associated with increased odds ratios for mortality. A better understanding of the nature of EOPT at a civilian level 1 trauma center can serve to identify conditions that are associated with more favorable outcomes for EOPT under battlefield conditions and thereby assist in both management decisions and to help prognosticate and triage severely injured patients in that setting.
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Musculoskeletal injury patterns are under-investigated in the Royal Australian Infantry Corps. Subsequently, more evidence is needed to support injury prevention processes in this population. One difficulty in collecting injury information to monitor injury patterns within combat populations accurately is known injury concealment behaviors in such populations. This study aims to examine musculoskeletal injury epidemiology within Australian infantry battalions using a tailored approach to mitigate reporting avoidance. ⋯ Musculoskeletal injuries are common in the Australian infantry and significantly burden the workforce. Physical training and field exercises are most associated with injury and represent opportunities for injury risk-mitigation strategies to support the overall deployability of personnel and the combat effectiveness of their battalions. Future research should more formally explore the injury risk factors related to these activities using more robust study designs to collect injury and exposure information more accurately and reliably. One study strength includes using military-specific international injury surveillance guidelines to inform the survey design, to collect the recommended injury information for effective surveillance, and to enable future research comparison. A second study strength was tailoring the survey to promote participatory engagement, providing a high completion rate. A challenge in conducting this research was coordinating participant recruitment and data collection during domestic operations. Such challenges reflect the reality of conducting research in the military.
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The Military Health System (MHS) has historically been at the forefront of innovation in medicine and science, but it has also historically struggled to implement battlefield innovations or civilian technologies for wider domestic use. Artificial intelligence (AI) has emerged as a transformative force in health care with civilian health systems and institutions at the forefront of these innovations. While these tools have the potential to support resolution of military health's most pressing issues, the MHS is behind its civilian counterparts in advancing AI. ⋯ To address these, the MHS should engage in three lines of effort to advance AI: establishing governance, education and training of medical personnel, and engaging in research, development, testing, and piloting of AI applications. This will require dedicated personnel and resources for a substantial initial outlay to be recouped later through more effective administration and care. By leveraging lessons learned from civilian systems, the MHS can design, adopt, and implement AI solutions to improve care for service members in both domestic and operational contexts, and for their beneficiaries.
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Military personnel exposed to blasts receive repeated subconcussive head impacts. Although these events typically do not cause immediate symptoms and do not lead to medical evaluation, the cumulative effects of subconcussive impacts can be significant and can include postconcussive symptoms, changes in brain structure and function, long-term cognitive dysfunction, depression, and chronic traumatic encephalopathy. Retinal measures such as thickness of retinal neural layers, density of retinal microvasculature, and strength of retinal neuronal firing are associated with cognitive function and brain structure and function in healthy populations and in neurodegenerative disease cohorts, and changes over time in retinal indices predict cognitive decline and brain atrophy in longitudinal studies in a range of medical populations. ⋯ Despite this, preclinical and human evidence suggests that they could be among the most effective methods for tracking central nervous system damage in people exposed to repeated blasts. Retinal biomarkers could also contribute to brief test batteries to determine who is most at risk for long-term negative effects of future exposures. In addition, the sensitivity of retinal indices to blast exposure and mild traumatic brain injury suggests that they should be incorporated into research on strategies to minimize or prevent blast-related short- and long-term central nervous system changes in blast-exposed military personnel.