Severe Spaceflight-Associated Neuro-Ocular Syndrome in an Astronaut With 2 Predisposing Factors
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Published:2024-07-25
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ISSN:2168-6165
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Container-title:JAMA Ophthalmology
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language:en
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Short-container-title:JAMA Ophthalmol
Author:
Brunstetter Tyson J.1, Zwart Sara R.2, Brandt Keith2, Brown David M.3, Clemett Simon J.4, Douglas Grace L.1, Gibson C. Robert56, Laurie Steven S.6, Lee Andrew G.7, Macias Brandon R.1, Mader Thomas H.8, Mason Sara S.9, Meir Jessica U.1, Morgan Andrew R.1, Nelman Mayra6, Patel Nimesh10, Sams Clarence1, Suresh Rahul1, Tarver William1, Tsung Ann6, Van Baalen Mary G.1, Smith Scott M.1
Affiliation:
1. NASA Johnson Space Center, Houston, Texas 2. UTMB, Galveston, Texas 3. Retina Consultants of Texas, Houston 4. Jacobs Technology Inc, Houston, Texas 5. South Shore Eye Center, League City, Texas 6. KBR, Houston, Texas 7. Blanton Eye Institute, Houston Methodist Hospital, Houston, Texas 8. NASA Ophthalmology Consultant, Moab, Utah 9. Aegis Aerospace Inc, Houston, Texas 10. University of Houston, Houston, Texas
Abstract
ImportanceUnderstanding potential predisposing factors associated with spaceflight-associated neuro-ocular syndrome (SANS) may influence its management.ObjectiveTo describe a severe case of SANS associated with 2 potentially predisposing factors.Design, Setting, and ParticipantsOcular testing of and blood collections from a female astronaut were completed preflight, inflight, and postflight in the setting of the International Space Station (ISS).ExposureWeightlessness throughout an approximately 6-month ISS mission. Mean carbon dioxide (CO2) partial pressure decreased from 2.6 to 1.3 mm Hg weeks before the astronaut’s flight day (FD) 154 optical coherence tomography (OCT) session. In response to SANS, 4 B-vitamin supplements (vitamin B6, 100 mg; L-methylfolate, 5 mg; vitamin B12, 1000 μg; and riboflavin, 400 mg) were deployed, unpacked on FD153, consumed daily through FD169, and then discontinued due to gastrointestinal discomfort.Main Outcomes and MeasuresRefraction, distance visual acuity (DVA), optic nerve, and macular assessment on OCT.ResultsCycloplegic refraction was −1.00 diopter in both eyes preflight and +0.50 − 0.25 × 015 in the right eye and +1.00 diopter in the left eye 3 days postflight. Uncorrected DVA was 20/30 OU preflight, 20/16 or better by FD90, and 20/15 OU 3 days postflight. Inflight peripapillary total retinal thickness (TRT) peaked between FD84 and FD126 (right eye, 401 μm preflight, 613 μm on FD84; left eye, 404 μm preflight, 636 μm on FD126), then decreased. Peripapillary choroidal folds, quantified by surface roughness, peaked at 12.7 μm in the right eye on FD154 and 15.0 μm in the left eye on FD126, then decreased. Mean choroidal thickness increased throughout the mission. Genetic analyses revealed 2 minor alleles for MTRR 66 and 2 major alleles for SHMT1 1420 (ie, 4 of 4 SANS risk alleles). One-week postflight, lumbar puncture opening pressure was normal, at 19.4 cm H2O.Conclusions and RelevanceTo the authors’ knowledge, no other report of SANS documented as large of a change in peripapillary TRT or hyperopic shift during a mission as in this astronaut, and this was only 1 of 4 astronauts to experience chorioretinal folds approaching the fovea. This case showed substantial inflight improvement greater than the sensitivity of the measure, possibly associated with B-vitamin supplementation and/or reduction in cabin CO2. However, as a single report, such improvement could be coincidental to these interventions, warranting further evaluation.
Publisher
American Medical Association (AMA)
Reference34 articles.
1. Optic disc edema, globe flattening, choroidal folds, and hyperopic shifts observed in astronauts after long-duration space flight.;Mader;Ophthalmology,2011 2. Identification of factors associated with the development of optic disc edema during spaceflight.;Pardon;JAMA Ophthalmol,2022 3. Vision changes after spaceflight are related to alterations in folate- and vitamin B-12–dependent 1-carbon metabolism.;Zwart;J Nutr,2012 4. Genotype, B-vitamin status, and androgens affect spaceflight-induced ophthalmic changes.;Zwart;FASEB J,2016 5. Association of genetics and B vitamin status with the magnitude of optic disc edema during 30-day strict head-down tilt bed rest.;Zwart;JAMA Ophthalmol,2019
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