Military medicine
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The U.S. Military members experiencing combat-related injuries have a higher chance of developing infections by multidrug-resistant (MDR) bacteria at admission to military hospitals. MDR wound infections result in higher amputation rates and greater risks for subsequent or chronic infections that require readmission or extended stay in the hospital. Currently, there is no FDA-clear, deployable early diagnostic system for suitable field use.We are reporting our efforts to improve a previously developed Rapid Label-free Pathogen Identification (RAPID) system to detect viable MDR bacteria in wound infections and perform antibiotic susceptibility testing (AST). Specifically, we added multiplex and automation capability and significantly simplified the sample preparation process. A functional prototype of the improved system was built, and its performance was validated using a variety of lab-prepared spiked samples and real-world samples. ⋯ Our system has achieved excellent performance in detecting viable bacteria presence and in performing AST in a multiplex, automated, and easy-to-operate manner, on both lab-prepared and real samples. Our results have shown a path forward to a rapid (sample-to-answer time ≤3 hours), accurate, sensitive, species-specific, and portable system to detect the presence of MDR combat-related wound infections in the field environment. Our future efforts involve ruggedizing the RAPID system and evaluating performance under relevant environmental conditions.
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Psoriasis and atopic dermatitis are chronic, immune-mediated skin disorders that are disqualifying for entrance into the military. Both conditions can cause difficulty wearing body armor and other protective equipment when poorly controlled, limiting a service member's ability to train and deploy worldwide. In addition, these conditions may be exacerbated by military service because of increased exposure to austere environments, extreme temperatures, stress, skin injury, bug bites, and vaccinations Service members have limited treatment options because of restrictions on systemic medications that can be used while deployed. Newer systemic medications-in particular, biologics and oral immunomodulators-have evolved to be both extremely effective and safe. We review more recent treatment options for psoriasis and atopic dermatitis in the context of DoD's regulations guiding entry and retention of personnel with psoriasis and eczema and make recommendations regarding updating DoD policy for systemic treatment options. ⋯ Systemic treatments have evolved to become highly specific for both eczema and psoriasis. These newer biologics and immunomodulators may be compatible with use in the deployed setting, especially those that have long dosing intervals and proven efficacy and safety. Of the biologics, dupilumab and risankizumab offer the best efficacy, safety, and dosing intervals for atopic dermatitis and psoriasis, respectively. Deucravcitinib is a recently FDA-approved oral immunomodulator for psoriasis that has an excellent safety profile and efficacy. Allowing the use of these medications on deployments will enable more people with moderate to severe psoriasis and eczema to join and remain in the military while receiving effective treatment.