Association of Structural Changes in the Brain and Retina After Long-Duration Spaceflight

Authors

Karina Marshall-Goebel
Brandon R. Macias
Larry A. Kramer
Khader M. Hasan
Connor Ferguson
Nimesh Patel
Robert J. Ploutz-Snyder
Stuart M.C. Lee
Doug Ebert
Ashot Sargsyan
Scott A. Dulchavsky, Henry Ford HealthFollow
Alan R. Hargens
Michael B. Stenger
Steven Laurie

Recommended Citation

Marshall-Goebel K, Macias BR, Kramer LA, Hasan KM, Ferguson C, Patel N, Ploutz-Snyder RJ, Lee SMC, Ebert D, Sargsyan A, Dulchavsky S, Hargens AR, Stenger MB, and Laurie S. Association of Structural Changes in the Brain and Retina After Long-Duration Spaceflight. JAMA Ophthalmol 2021.

Document Type

Article

Publication Date

5-20-2021

Publication Title

JAMA Ophthalmol

Abstract

Importance: Long-duration spaceflight induces structural changes in the brain and eye. Identification of an association between cerebral and ocular changes could help determine if there are common or independent causes and inform targeted prevention strategies or treatments.

Objective: To determine if there is an association between quantitative changes in intracranial compartment volumes and peripapillary total retinal thickness after spaceflight.

Design, Setting, and Participants: This cohort study included healthy International Space Station crew members before and immediately after long-duration spaceflight. Data on race were not collected. Analysis was conducted from September to November 2020.

Exposures: Long-duration spaceflight (mean [SD], 191 [55] days).

Main Outcomes and Measures: Optical coherence tomography-derived peripapillary total retinal thickness as a quantitative assessment and early sign of optic disc edema and magnetic resonance imaging-derived measures of lateral ventricle volume, white matter volume, and whole brain plus cerebrospinal fluid volume.

Results: In 19 healthy crew members included in this study (5 women [26.3%], 14 men [73.7%]; mean [SD] age, 45.2 [6.4] years), analyses revealed a positive, although not definitive, association between spaceflight-induced changes in total retinal thickness and lateral ventricle volume (4.7-μm increase in postflight total retinal thickness [95% CI, -1.5 to 10.8 μm; P = .13] per 1-mL postflight increase in lateral ventricle volume). Adjustments for mission duration improved the strength of association (5.1 μm; 95% CI, -0.4 to 10.5 μm; P = .07). No associations were detected between spaceflight-induced changes in total retinal thickness and white matter volume (0.02 μm; 95% CI, -0.5 to 0.5 μm; P = .94) or brain tissue plus cerebrospinal fluid volume, an estimate of intracranial volume (0.02 μm; 95% CI, -0.6 to 0.6 μm; P = .95).

Conclusions and Relevance: These results help characterize spaceflight-associated neuro-ocular syndrome and the physiologic associations of headward fluid shifts with outcomes during spaceflight on the central nervous system. The possibly weak association between increased total retinal thickness and lateral ventricle volume suggest that while weightlessness-induced fluid redistribution during spaceflight may be a common stressor to the brain and retina, the development of optic disc edema appears to be uncoupled with changes occurring in the intracranial compartment.

PubMed ID

34014272

ePublication

ePub ahead of print