Objectives - Physiological data - Early inflight period historically unobtainable - Spacefaring population becoming more diverse - Many spaceflight changes still poorly understood, risks unmitigated - Private spaceflight offers more rapid access to higher n - Autonomous procedures - Communication delays and outages - Transition to new training paradigms - Terrestrial application (remote medicine, DOD) - Leverage new hardware and software - Concepts extend beyond medical realm (medical ultrasound as a use case)


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    Title :

    Imaging-Based Human Physiology Research and Innovation in Early Spaceflight: Polaris Dawn Mission


    Contributors:
    A. Sargsyan (author) / D. Ebert (author) / A. Everson (author) / V. Perizes (author) / J. Scheurle (author) / M. Rosenberg (author) / J. Mateus (author) / R. Mendez (author) / J. Martin (author) / J. Wu (author)

    Conference:

    2023 Human Research Program (HRP) Investigators' Workshop (IWS) ; 2023 ; Galveston, TX, US


    Type of media :

    Miscellaneous


    Type of material :

    No indication


    Language :

    English