Noam Alperin1,2, Ahmet M Bagci3. 1. Department of Radiology, Miller School of Medicine, University of Miami, Miami, FL, USA. Nalperin@med.miami.edu. 2. Alperin noninvasive diagnostics, Miami, FL, USA. Nalperin@med.miami.edu. 3. Department of Radiology, Miller School of Medicine, University of Miami, Miami, FL, USA.
Abstract
OBJECTIVE: Most of the astronauts onboard the International Space Station (ISS) develop visual impairment and ocular structural changes that are not fully reversible upon return to earth. Current understanding assumes that the so-called visual impairments/intracranial pressure (VIIP) syndrome is caused by cephalad vascular fluid shift. This study assesses the roles of cerebrospinal fluid (CSF) and intracranial pressure (ICP) in VIIP. MATERIALS AND METHODS: Seventeen astronauts, 9 who flew a short-duration mission on the space shuttle (14.1 days [SD 1.6]) and 7 who flew a long-duration mission on the ISS (188 days [SD 22]) underwent MRI of the brain and orbits to assess the pre-to-post spaceflight changes in four categories: VIIP severity measures: globe flattening and nerve protrusion; orbital and ventricular CSF volumes; cortical gray and white matter volumes; and MR-derived ICP (MRICP). RESULTS: Significant pre-to-post-flight increase in globe flattening and optic nerve protrusion occurred only in the long-duration cohort (0.031 [SD 0.019] vs -0.001 [SD 0.006], and 0.025 [SD 0.013] vs 0.001 [SD 0.006]; p < 0.00002 respectively). The increased globe deformations were associated with significant increases in orbital and ventricular CSF volumes, but not with increased tissue vascular fluid content. Additionally, a moderate increase in MRICP of 6 mmHg was observed in only two ISS astronauts with large ocular structure changes. CONCLUSIONS: These findings are evidence for the primary role of CSF and a lesser role for intracranial cephalad fluid-shift in the formation of VIIP. VIIP is caused by a prolonged increase in orbital CSF spaces that compress the globes' posterior pole, even without a large increase in ICP.
OBJECTIVE: Most of the astronauts onboard the International Space Station (ISS) develop visual impairment and ocular structural changes that are not fully reversible upon return to earth. Current understanding assumes that the so-called visual impairments/intracranial pressure (VIIP) syndrome is caused by cephalad vascular fluid shift. This study assesses the roles of cerebrospinal fluid (CSF) and intracranial pressure (ICP) in VIIP. MATERIALS AND METHODS: Seventeen astronauts, 9 who flew a short-duration mission on the space shuttle (14.1 days [SD 1.6]) and 7 who flew a long-duration mission on the ISS (188 days [SD 22]) underwent MRI of the brain and orbits to assess the pre-to-post spaceflight changes in four categories: VIIP severity measures: globe flattening and nerve protrusion; orbital and ventricular CSF volumes; cortical gray and white matter volumes; and MR-derived ICP (MRICP). RESULTS: Significant pre-to-post-flight increase in globe flattening and optic nerve protrusion occurred only in the long-duration cohort (0.031 [SD 0.019] vs -0.001 [SD 0.006], and 0.025 [SD 0.013] vs 0.001 [SD 0.006]; p < 0.00002 respectively). The increased globe deformations were associated with significant increases in orbital and ventricular CSF volumes, but not with increased tissue vascular fluid content. Additionally, a moderate increase in MRICP of 6 mmHg was observed in only two ISS astronauts with large ocular structure changes. CONCLUSIONS: These findings are evidence for the primary role of CSF and a lesser role for intracranial cephalad fluid-shift in the formation of VIIP. VIIP is caused by a prolonged increase in orbital CSF spaces that compress the globes' posterior pole, even without a large increase in ICP.
Authors: Angelique Van Ombergen; Steven Jillings; Elena Tomilovskaya; Floris L Wuyts; Peter Zu Eulenburg Journal: Proc Natl Acad Sci U S A Date: 2019-07-30 Impact factor: 11.205
Authors: Andrew G Lee; Thomas H Mader; C Robert Gibson; William Tarver; Pejman Rabiei; Roy F Riascos; Laura A Galdamez; Tyson Brunstetter Journal: NPJ Microgravity Date: 2020-02-07 Impact factor: 4.415
Authors: Angelique Van Ombergen; Steven Jillings; Ben Jeurissen; Elena Tomilovskaya; Alena Rumshiskaya; Liudmila Litvinova; Inna Nosikova; Ekaterina Pechenkova; Ilya Rukavishnikov; Olga Manko; Sergey Danylichev; R Maxine Rühl; Inessa B Kozlovskaya; Stefan Sunaert; Paul M Parizel; Valentin Sinitsyn; Steven Laureys; Jan Sijbers; Peter Zu Eulenburg; Floris L Wuyts Journal: Proc Natl Acad Sci U S A Date: 2019-05-06 Impact factor: 11.205
Authors: Andrew G Lee; Thomas H Mader; C Robert Gibson; William Tarver; Pejman Rabiei; Roy F Riascos; Laura A Galdamez; Tyson Brunstetter Journal: NPJ Microgravity Date: 2020-02-07 Impact factor: 4.415
Authors: Anirudh Arun; Matthew R Amans; Nicholas Higgins; Waleed Brinjikji; Mithun Sattur; Sudhakar R Satti; Peter Nakaji; Mark Luciano; Thierry Agm Huisman; Abhay Moghekar; Vitor M Pereira; Ran Meng; Kyle Fargen; Ferdinand K Hui Journal: Neuroradiol J Date: 2021-07-05
Authors: Ushashi C Dadwal; Kevin A Maupin; Ariane Zamarioli; Aamir Tucker; Jonathan S Harris; James P Fischer; Jeffery D Rytlewski; David C Scofield; Austin E Wininger; Fazal Ur Rehman Bhatti; Marta Alvarez; Paul J Childress; Nabarun Chakraborty; Aarti Gautam; Rasha Hammamieh; Melissa A Kacena Journal: Sci Rep Date: 2019-08-06 Impact factor: 4.379