Military medicine
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For combatants without systematic medical education experience (CSMEE), it is necessary to participate in first-aid on the battlefield, but currently there is no effective training curriculum for CSMEE in Chinese military. ⋯ The established training curriculum is indeed effective, which improved the CSMEE's first-aid capacity on the battlefield, and is equivalent to the level of medics.
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There are no reports in the literature describing risk factors for failure of nonoperative treatment of patients with posterior labral tears on magnetic resonance imaging (MRI). The purpose of this study is to identify risk factors for failure of nonoperative treatment in patients with an isolated posterior glenoid labral tear identified on MRI only. Patients with posterior labral tears on MRI who fail to improve with nonoperative treatment likely share a constellation of clinical history, physical exam, and radiographic findings. ⋯ Patients with an MRI confirmed posterior labral tear, which present with subjective complaints and physical exam maneuvers consistent with instability, appear less likely to be treated nonoperatively. Increased glenoid retroversion and posterior humeral head subluxation may also predispose patients toward surgical treatment. Additionally, posterior labral tears may extend into the anterior labrum more frequently than is recognized on MRI.
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The intangible personal characteristic grit has become a popular topic of concentration within contemporary psychology studies. Grit is defined as persistent work on a focused topic for an extended period of time until a desired goal is achieved. Its application to physician selection and development is not well known. We sought to determine which factors were considered most important among leadership within the U.S. Army's orthopedic surgical training programs when selecting applications and ascertain if grit was one of the primary factors. ⋯ The most important factor when considering an orthopedic surgery applicant was how well the applicant performed on an audition rotation, followed by their United States Medical Licensing Examination scores. Grit has become an important consideration in resident selection.
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Traditionally, tissue engineering techniques have largely focused on 2D cell culture models-monolayers of immortalized or primary cells growing on tissue culture plastic. Although these techniques have proven useful in research, they often lack physiological validity, because of the absence of fundamental tissue properties, such as multicellular organization, specialized extracellular matrix structures, and molecular or force gradients essential to proper physiological function. More recent advances in 3D cell culture methods have facilitated the development of more complex physiological models and tissue constructs; however, these often rely on self-organization of cells (bottom-up design), and the range of tissue construct size and complexity generated by these methods remains relatively limited. By borrowing from advances in the additive manufacturing field, 3D bioprinting techniques are enabling top-down design and fabrication of cellular constructs with controlled sizing, spacing, and chemical functionality. The high degree of control over engineered tissue architecture, previously unavailable to researchers, enables the generation of more complex, physiologically relevant 3D tissue constructs. Three main 3D bioprinting techniques are reviewed-extrusion, droplet-based, and laser-assisted bioprinting techniques are among the more robust 3D bioprinting techniques, each with its own strengths and weaknesses. High complexity tissue constructs created through 3D bioprinting are opening up new avenues in tissue engineering, regenerative medicine, and physiological model systems for researchers in the military medicine community. ⋯ 3D bioprinting is a rapidly evolving field that provides researchers the ability to build tissue constructs that are more complex and physiologically relevant than traditional 2D culture methods. Advances in bioprinting techniques, bioink formulation, and cell culture methods are being translated into new paradigms in tissue engineering and physiological system modeling, advancing the state of the art, and increasing construct availability to the military medicine research community.
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The role of military leaders to promote resilience has never been more relevant. The following case highlights a Navy Nurse Corps Officer's challenges with deployment stressors and building resilience during a ship-based Global Health Engagement. The case also highlights a follow-on project to enhance the resilience of deployed service members.