Litcius/Paper detail

Functional optical coherence tomography at altitude: retinal microvascular perfusion and retinal thickness at 3,800 meters

Jacquie Baker, Mohammad Safarzadeh, Anthony V. Incognito, Nicholas Jendzjowsky, Glen E. Foster, Jordan D. Bird, Satish R. Raj, Trevor A. Day, Caroline A. Rickards, Natalia Zubieta-DeUrioste, Usman Alim, Richard J. A. Wilson

2022Journal of Applied Physiology16 citationsDOIOpen Access PDF

Abstract

Measuring the retinal microvasculature at high altitude provides a surrogate for cerebral microvasculature, offering potential insight into consequence of cerebral hypoxia in critical illness. This study demonstrates dynamic regulation of the retina during rapid ascent and prolonged exposure to high altitude and is the first to demonstrate sex-specific differences in retinal microvasculature at high altitude. The ability to dynamically assess intact microvasculature contiguous with the brain has widespread research and clinical applications.

Topics & Concepts

RetinalEffects of high altitude on humansRetinaOptical coherence tomographyPerfusionAltitude (triangle)Hypoxia (environmental)OphthalmologyMedicineBiologyAnatomyNeuroscienceCardiologyChemistryOxygenMathematicsGeometryOrganic chemistryGlaucoma and retinal disordersHigh Altitude and HypoxiaRetinal Imaging and Analysis