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Intraocular pressure and choroidal thickness respond differently to lower body negative pressure during spaceflight

Scott H. Greenwald, Brandon R. Macias, Stuart M. C. Lee, Karina Marshall‐Goebel, Douglas Ebert, John H.K. Liu, Robert Ploutz‐Snyder, I. V. Alferova, Scott A. Dulchavsky, Alan R. Hargens, Michael B. Stenger, Steven S. Laurie

2021Journal of Applied Physiology46 citationsDOIOpen Access PDF

Abstract

Spaceflight induces a chronic headward fluid shift that is believed to underlie ocular changes observed in astronauts. The present study demonstrates, for the first time, that reversing this headward fluid shift via application of lower body negative pressure (LBNP) during spaceflight may alter the ocular venous system, as evidenced by a decrease in intraocular pressure. This finding indicates that LBNP has the potential to be an effective countermeasure against the headward fluid shift during spaceflight, which may then be beneficial in preventing or reversing associated ocular changes.

Topics & Concepts

SpaceflightMedicineIntraocular pressureLower bodyWeightlessnessCentral venous pressureReversingAnesthesiaOphthalmologyInternal medicineBlood pressureHeart rateMaterials scienceEngineeringAstronomyPhysicsAerospace engineeringComposite materialSpaceflight effects on biologyHigh Altitude and HypoxiaGlaucoma and retinal disorders
Intraocular pressure and choroidal thickness respond differently to lower body negative pressure during spaceflight | Litcius