Military medicine
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Annually, 300,000 soldiers are rendered medically nondeployable because of musculoskeletal injuries (MSKIs). Of this population, nearly 10,000 (3.3%) involve injuries to the hip. Factors related to these injuries impose significant healthcare, financial, and readiness burdens on the Army system, degrading overall mission readiness. The purpose of this retrospective study was to assess for correlation between increased anterior pelvic tilt and a lower likelihood for return to duty/return to run (RTD/RTR) in active duty personnel who underwent hip arthroscopy for femoroacetabular impingement (FAI), thus identifying increased anterior pelvic tilt as a potential prognostic indicator for RTD/RTR. ⋯ Statistical analysis confirmed the correlation between an increased amount of anterior pelvic tilt and a lower odds of RTD and RTR after hip arthroscopy for FAI in active duty U.S. Army personnel. This information can be used in patient counseling to better inform shared decision-making, provide more thorough informed consent, and help determine the optimal timing for surgical intervention, thus contributing to better stewardship of medical resources and decreasing the ever-growing financial healthcare burden. These findings will spur future research to consider the causes and optimal treatment of anterior pelvic tilt, positively impacting the culture of Army medicine by focusing on preventive and targeted treatments in order to preserve and grow the force.
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The Uniformed Services University is known for its dual mission of preparing military medical officers for operational readiness and leadership roles. The Joint Expeditionary Medical Officer (JEMO) project is a novel internal program that was initiated in 2022 and aims to fortify and evaluate the essential Knowledge, Skills, and Abilities (KSAs) within the School of Medicine's Molecules to Military Medicine curriculum that are pivotal for the development of a deployment-ready military medical officer. The JEMO-KSA program identifies and deliberately develops a core set of mission-critical skills during the course of students' undergraduate medical education. ⋯ The JEMO project represents a significant stride toward optimizing the readiness of military medical officers by systematically identifying, strengthening, and assessing vital operational skills and abilities. With an ongoing commitment to excellence, the project envisages creating an even more robustly structured curriculum that is continually refined to address current operational readiness, setting a new standard for military medical education. While challenges such as accurately measuring the impact of integrated KSAs and continuously updating them to meet evolving military needs remain, the forward momentum associated with the JEMO project will help facilitate the development of military medical officers who have the KSAs to actively support mission success while simultaneously enhancing the overall effectiveness of military health care.
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Traumatic brain injury often requires neurologic care and specialized equipment, not often found downrange. Nonconvulsive seizures (NCSs) and nonconvulsive status epilepticus (NCSE) occur in up to 30% of patients with moderate or severe traumatic brain injury and is associated with a 39% morbidity and an 18% mortality. It remains difficult to identify at bedside because of the heterogeneous clinical manifestations. The primary diagnostic tool is an electroencephalogram (EEG) which is large, requires an external power source, and requires a specialized technician and neurologist to collect and interpret the data. Rapid response EEG (rr-EEG) is an FDA-approved device that is pocket sized and battery powered and uses a disposable 10-electrode headset. Prior studies have demonstrated the noninferiority of rr-EEG in the identification of NCSE and NCS as compared to conventional EEG in hospitals. An unanswered question is whether rr-EEG could be used in the identification of NCSE and NCS by medics. ⋯ This pilot study has validated a potentially revolutionary technology in medical transport. The rr-EEG technology is measurably user-friendly and will improve patient outcomes. This device and simulation can reduce time to an EEG by hours to days allowing for immediate treatment and intervention, which can significantly reduce morbidity and mortality.