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of microphysiological systems or organ on a chip model for viral agents. Research project emphasis is placed on determining virus growth and stimulation of an appropriate immune response that mimics what is observed in
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modeling, economic evaluation, and surveillance to enhance analytical tools. Activities will focus on gaining hands-on experience and contributing to emergency preparedness and surveillance planning
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additional years, contingent upon project needs and funding availability. What are the provisions? You will receive a stipend to be determined by DCPH-A. Stipends are typically based on a participant’s
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. Along the way, you will engage in activities and research in several areas. Learning activities will focus on: The development and characterization of animal models and/or microphysiological systems
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group selection management to promote structural complexity, making them a useful test of different modeling approaches in the Forest Vegetation Simulator (FVS). Currently FVS users, which largely consist
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state-of-the-art experimental and computational models for solving water resource problems worldwide. CHL research and development addresses water resource and navigation challenges in a variety of
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related orthopaedic trauma. In particular, contemporary cell / molecular biology in vitro approaches as well as clinically relevant small and large animal models of orthopaedic trauma are utilized
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countermeasures targeting hantaviruses. Currently we use Syrian hamsters as models of hantavirus pulmonary syndrome (HPS), a disease with a very high case-fatality rate in humans. Andes virus is the hantavirus
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rules, and availability of the participant. What are the provisions? You will receive a stipend to be determined by USAMRICD. Stipends are typically based on a participant’s academic standing, discipline
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balance modeling techniques (see below) with existing datasets of field-observed microclimate measurements (e.g. temperature and soil moisture) under various vegetation structural conditions. Objective 2