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Stuart M C Lee

Explore the profile of Stuart M C Lee including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 66
Citations 1551
Followers 0
Related Specialties
Physiology
Occupational Medicine
Orthopedics
Top 10 Co-Authors
Michael B Stenger
Brandon R Macias
Steven S Laurie
Alan R Hargens
Scott M Smith
Steven H Platts
Suzanne M Schneider
Donald E Watenpaugh
David S Martin
Sara R Zwart
Published In
J Appl Physiol (1985)
Aviat Space Environ Med
Med Sci Sports Exerc
JAMA Ophthalmol
Eur J Appl Physiol
Affiliations
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Recent Articles
1.
Impact of Daily Lower-Body Negative Pressure or Cycling Followed by Venous Constrictive Thigh Cuffs on Bedrest-Induced Orthostatic Intolerance
Honemann J, Hoffmann F, De Boni L, Gauger P, Mulder E, Mostl S, et al.
J Am Heart Assoc . 2024 Oct; 13(21):e034800. PMID: 39450723
Background: Orthostatic intolerance occurs following immobilization in patients on Earth and in astronauts after spaceflight. Head-down tilt bedrest is a terrestrial model for weightlessness and induces orthostatic intolerance. We hypothesized...
2.
Self-Generated Lower Body Negative Pressure Exercise: A Low Power Countermeasure for Acute Space Missions
Velichala S, Kassel R, Ly V, Watenpaugh D, Lee S, Macias B, et al.
Life (Basel) . 2024 Jul; 14(7). PMID: 39063548
Microgravity in spaceflight produces headward fluid shifts which probably contribute to Spaceflight-Associated Neuro-Ocular Syndrome (SANS). Developing new methods to mitigate these shifts is crucial for preventing SANS. One possible strategy...
3.
Computational modelling of cardiovascular pathophysiology to risk stratify commercial spaceflight
Morris P, Anderton R, Marshall-Goebel K, Britton J, Lee S, Smith N, et al.
Nat Rev Cardiol . 2024 Jul; 21(10):667-681. PMID: 39030270
For more than 60 years, humans have travelled into space. Until now, the majority of astronauts have been professional, government agency astronauts selected, in part, for their superlative physical fitness...
4.
Jugular venous flow dynamics during acute weightlessness
Marshall-Goebel K, Lee S, Lytle J, Martin D, Miller C, Young M, et al.
J Appl Physiol (1985) . 2024 Mar; 136(5):1105-1112. PMID: 38482574
During spaceflight, fluids shift headward, causing internal jugular vein (IJV) distension and altered hemodynamics, including stasis and retrograde flow, that may increase the risk of thrombosis. This study's purpose was...
5.
Noninvasive indicators of intracranial pressure before, during, and after long-duration spaceflight
Jasien J, Laurie S, Lee S, Martin D, Kemp D, Ebert D, et al.
J Appl Physiol (1985) . 2022 Jul; 133(3):721-731. PMID: 35861522
Weightlessness induces a cephalad shift of blood and cerebrospinal fluid that may increase intracranial pressure (ICP) during spaceflight, whereas lower body negative pressure (LBNP) may provide an opportunity to caudally...
6.
Long-term Cardiovascular Risk in Astronauts: Comparing NASA Mission Astronauts With a Healthy Cohort From the Cooper Center Longitudinal Study
Charvat J, Leonard D, Barlow C, DeFina L, Willis B, Lee S, et al.
Mayo Clin Proc . 2022 Jul; 97(7):1237-1246. PMID: 35787853
Objective: To determine the long-term cardiovascular disease risk of astronauts with spaceflight exposure compared with a well-matched cohort. Methods: National Aeronautics and Space Administration (NASA) astronauts are selected into their...
7.
Bellagio II Report: Terrestrial Applications of Space Medicine Research
Sides M, Johnston 3rd S, Sirek A, Lee P, Blue R, Antonsen E, et al.
Aerosp Med Hum Perform . 2021 Sep; 92(8):650-669. PMID: 34503618
For over 50 yr, investigators have studied the physiological adaptations of the human system during short- and long-duration spaceflight exposures. Much of the knowledge gained in developing health countermeasures for...
8.
Optic disc edema and chorioretinal folds develop during strict 6° head-down tilt bed rest with or without artificial gravity
Laurie S, Greenwald S, Marshall-Goebel K, Pardon L, Gupta A, Lee S, et al.
Physiol Rep . 2021 Aug; 9(15):e14977. PMID: 34355874
Spaceflight associated neuro-ocular syndrome (SANS) is hypothesized to develop as a consequence of the chronic headward fluid shift that occurs in sustained weightlessness. We exposed healthy subjects (n = 24)...
9.
Intraocular pressure and choroidal thickness respond differently to lower body negative pressure during spaceflight
Greenwald S, Macias B, Lee S, Marshall-Goebel K, Ebert D, Liu J, et al.
J Appl Physiol (1985) . 2021 Jun; 131(2):613-620. PMID: 34166098
Spaceflight-associated neuro-ocular syndrome (SANS) develops during long-duration (>1 mo) spaceflight presumably because of chronic exposure to a headward fluid shift that occurs in weightlessness. We aimed to determine whether reversing...
10.
Association of Structural Changes in the Brain and Retina After Long-Duration Spaceflight
Marshall-Goebel K, Macias B, Kramer L, Hasan K, Ferguson C, Patel N, et al.
JAMA Ophthalmol . 2021 May; 139(7):781-784. PMID: 34014272
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...