Vascular functions in humans following cardiovascular adaptations to spaceflight

Purpose: Diminished vascular function is a primary cardiovascular risk of spaceflight identified in the 2004 NASA Bioastronautics Critical Path Roadmap based on: (1) structural and functional alterations in arterial vessels of animals undergoing hindlimb unloading and; (2) lower peripheral vascular resistance (PVR) in astronauts who became presyncopal after spaceflight. Methods: We conducted a critical review of published data obtained from spaceflight and relevant ground-based microgravity simulations in an effort to interpret the meaning of altered responses in PVR and their relationship to postflight presyncope. Results: Presyncope reported in astronauts on landing day was associated with lower peripheral resistance. However, nonpresyncopal astronauts demonstrated significantly elevated vascular resistance in the upright posture after compared with before spaceflight. Results from both space and ground experiments suggest that preflight maximal vasoconstrictor capacity is inherently lower in presyncopal astronauts, but unaltered by spaceflight. Conclusions: Vasoconstrictor reserve is associated with lower blood volume adaptation to microgravity. Rather than reduced vascular function, low inherent maximal vasoconstrictor capacity and reduced vasoconstrictor reserve secondary to decreased circulating vascular volume explain lower peripheral vascular resistance in astronauts who experience presyncopal episodes on landing day. Published by Elsevier Ltd.