Problem On March 17, 2020, the Association of American Medical Colleges recommended the suspension of all direct patient contact responsibilities for medical students because of the COVID-19 pandemic. Given this change, medical students nationwide had to grapple with how and where they could fill the evolving needs of their schools’ affiliated clinical sites, physicians, patients, and the community. Approach At Harvard Medical School (HMS), student leaders created a COVID-19 Medical Student Response Team to: (1) develop a student-led organizational structure that would optimize students’ ability to efficiently mobilize interested peers in the COVID-19 response, both clinically and in the community, in a strategic, safe, smart, and resource-conscious way; and (2) serve as a liaison with the administration and hospital leaders to identify evolving needs and rapidly engage students in those efforts. Outcomes Within a week of its inception, the COVID-19 Medical Student Response Team had more than 500 medical student volunteers from HMS and had shared the organizational framework of the response team with multiple medical schools across the country. The HMS student volunteers joined any of the 4 virtual committees to complete this work: Education for the Medical Community, Education for the Broader Community, Activism for Clinical Support, and Community Activism. Next Steps The COVID-19 Medical Student Response Team helped to quickly mobilize hundreds of students and has been integrated into HMS’s daily workflow. It may serve as a useful model for other schools and hospitals seeking medical student assistance during the COVID-19 pandemic. Next steps include expanding the initiative further, working with the leaders of response teams at other medical schools to coordinate efforts, and identifying new areas of need at local hospitals and within nearby communities that might benefit from medical student involvement as the pandemic evolves.
Bleeding from traumatic injury is the leading cause of death for young people across the world, but interventions are lacking. While many agents have shown promise in small animal models, translating the work to large animal models has been exceptionally difficult in great part because of infusion-associated complement activation to nanomaterials that leads to cardiopulmonary complications. Unfortunately, this reaction is seen in at least 10% of the population. We developed intravenously infusible hemostatic nanoparticles that were effective in stopping bleeding and improving survival in rodent models of trauma. To translate this work, we developed a porcine liver injury model. Infusion of the first generation of hemostatic nanoparticles and controls 5 min after injury led to massive vasodilation and exsanguination even at extremely low doses. In naïve animals, the physiological changes were consistent with a complement-associated infusion reaction. By tailoring the zeta potential, we were able to engineer a second generation of hemostatic nanoparticles and controls that did not exhibit the complement response at low and moderate doses but did at the highest doses. These second-generation nanoparticles led to cessation of bleeding within 10 min of administration even though some signs of vasodilation were still seen. While the complement response is still a challenge, this work is extremely encouraging in that it demonstrates that when the infusion-associated complement response is managed, hemostatic nanoparticles are capable of rapidly stopping bleeding in a large animal model of trauma.
The funder had no role in the design and conduct of the study; collection, management, analysis, and interpretation of the data; preparation, review, or approval of the manuscript; and decision to submit the manuscript for publication. Additional Contributions:We acknowledge the officials who collected these data.
Key Points Question How have medications been used recently in the management of symptoms and comorbidities of autism spectrum disorder (ASD)? Findings This population-based cohort study of 26 722 individuals with ASD in the US retrospectively assessed the most common medications used to treat their symptoms and comorbidities during 6 years. Medication type and frequency varied considerably, depending on the comorbidity diagnosed, and individual drug regimens shifted frequently within medication classes over time. Meaning Many individuals with ASD undergo treatment with a wide variety of medications on a trial basis, resulting in frequent changes in drug regimens over time as clinicians attempt to manage associated symptoms and comorbidities.
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