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Space adaptation syndrome

April 10, 2024

Space adaptation syndrome (SAS) or space sickness is a condition experienced by as many as half of all space travelers during their adaptation to weightlessness once in orbit.[4] It is the opposite of terrestrial motion sickness since it occurs when the environment and the person appear visually to be in motion relative to one another even though there is no corresponding sensation of bodily movement originating from the vestibular system.[5]

Space adaptation syndrome
NASA astronauts acclimating themselves to space adaptation syndrome in a KC-135 airplane that flies parabolic arcs to create short periods of weightlessness.[1] In about two thirds of the passengers, these flights produce nausea,[2][3] giving the plane its nickname "vomit comet".
SpecialtySpace medicine 
Prevalence50% of individuals

Presentation edit

Space motion sickness can lead to degraded astronaut performance.[6]: 32  SMS threatens operational requirements, reduces situational awareness, and threatens the safety of those exposed to micro-g environments.[6] Lost muscle mass leads to difficulty with movement, especially when astronauts return to Earth. This can pose a safety issue if the need for emergency egress were to arise. Loss of muscle power makes it extremely difficult, if not impossible, for astronauts to climb through emergency egress hatches or create unconventional exit spaces in the case of a crash upon landing. Additionally, bone resorption and inadequate hydration in space can lead to the formation of kidney stones, and subsequent sudden incapacitation due to pain.[7] If this were to occur during critical phases of flight, a capsule crash leading to worker injury and/or death could result. Short-term and long-term health effects have been seen in the cardiovascular system from exposure to the micro-g environment that would limit those exposed after they return to Earth or a regular gravity environment. Steps need to be taken to ensure proper precautions are taken into consideration when dealing a micro-g environment for worker safety.[8][9] Orthostatic intolerance can lead to temporary loss of consciousness due to the lack of pressure and stroke volume. This loss of consciousness inhibits and endangers those affected and can lead to deadly consequences.[10]

Cause edit

Your body just isn't built to deal with zero-gravity. But there's no way of predicting how someone will handle it. Someone who gets car-sick all the time can be fine in space - or the opposite. I'm fine in cars and on rollercoasters, but space is a different matter.

— Steven Smith[11]

When the vestibular system and the visual system report incongruous states of motion, the result is often nausea and other symptoms of disorientation known as motion sickness. According to contemporary sensory conflict theory, such conditions happen when the vestibular system and the visual system do not present a synchronized and unified representation of one's body and surroundings. This theory is also known as neural mismatch, implying a mismatch occurring between ongoing sensory experience and long-term memory rather than between components of the vestibular and visual systems, emphasizing "the limbic system in integration of sensory information and long-term memory, in the expression of the symptoms of motion sickness, and the impact of anti-motion-sickness drugs and stress hormones on limbic system function. The limbic system may be the neural mismatch center of the brain."[12] At present a "fully adequate theory of motion sickness is not presently available" but at present the sensory conflict theory, referring to "a discontinuity between either visual, proprioceptive, and somatosensory input, or semicircular canal and otolith input", may be the best available.[13] Space adaptation syndrome or space sickness is a kind of motion sickness that can occur when one's surroundings visually appear to be in motion, but without a corresponding sense of bodily motion. This incongruous condition can occur during space travel when changes in g-forces compromise one's spatial orientation.[5] According to Science Daily, "Gravity plays a major role in our spatial orientation. Changes in gravitational forces, such as the transition to weightlessness during a space voyage, influence our spatial orientation and require adaptation by many of the physiological processes in which our balance system plays a part. As long as this adaptation is incomplete, this can be coupled to nausea, visual illusions, and disorientation."[5] Sleep deprivation can also increase susceptibility to space sickness, making symptoms worse and longer-lasting.[12]

According to the sensory conflict hypothesis, space sickness is the opposite of the kinds of motion-related disorientation that occur in the presence of gravity, known as terrestrial motion sickness, such as becoming carsick, seasick, or airsick. In such cases, and in contrast to space sickness, one's surroundings seem visually immobile (such as inside a car or airplane or a cabin below decks) while one's body feels itself to be in motion. Contemporary motion sickness medications can counter various forms of motion disorientation including space sickness by temporarily suppressing the vestibular system, but are rarely used for space travel because it is considered better to allow space travelers to adapt naturally over the first one to seven days rather than to suffer the drowsiness and other side effects of medication taken over a longer period. However, transdermal dimenhydrinate anti-nausea patches are typically used whenever space suits are worn because vomiting into a space suit could be fatal by obscuring vision or blocking airflow. Space suits are generally worn during launch and landing by NASA crew members and always for extra-vehicular activities (EVAs). EVAs are consequently not usually scheduled for the first days of a mission to allow the crew to adapt, and transdermal dimenhydrinate patches are typically used as an additional backup measure.

Management edit

Just as space sickness has the opposite cause compared to terrestrial motion sickness, the two conditions have opposite non-medicinal remedies. The idea of sensory conflict implies that the most direct remedy for motion sickness in general is to resolve the conflict by re-synchronizing what one sees and what one feels. For most (but not all) kinds of terrestrial motion sickness, that can be achieved by viewing one's surroundings from a window or (in the case of seasickness) going up on deck to observe the seas. For space sickness, relief is available via the opposite move of restricting one's vision to a small area such as a book or a small screen, disregarding the overall surroundings until the adaptation process is complete, or simply to close one's eyes until the nauseated feeling is reduced in intensity during the adjustment period. Some research indicates that blindness itself does not provide relief; "Motion sickness can occur during exposure to physical motion, visual motion, and virtual motion, and only those without a functioning vestibular system are fully immune.[12]

As with sea sickness and car sickness, space motion sickness symptoms can vary from mild nausea and disorientation to vomiting and intense discomfort; headaches and nausea are often reported in varying degrees. The most extreme reaction yet recorded was that felt by Senator Jake Garn in 1985 on Space Shuttle flight STS-51-D. NASA later jokingly began using the informal "Garn scale" to measure reactions to space sickness. In most cases, symptoms last from 2–4 days. When asked about the origins of "Garn", Robert E. Stevenson said:[14]

Jake Garn was sick, was pretty sick. I don't know whether we should tell stories like that. But anyway, Jake Garn, he has made a mark in the Astronaut Corps because he represents the maximum level of space sickness that anyone can ever attain, and so the mark of being totally sick and totally incompetent is one Garn. Most guys will get maybe to a tenth Garn if that high. And within the Astronaut Corps, he forever will be remembered by that.

Garn's purpose on the mission was in part to subject him to experiments on space motion sickness.[15] Predicting whether someone will experience space sickness is not possible. Someone who suffers from car sickness may not suffer from space sickness, and vice versa.[11] In excellent physical condition, Garn did not become sick on the vomit comet before STS-51-D.[15] All three astronauts on Skylab 3 suffered from nausea, although the three on Skylab 2 had not; the illness affected their work during the first few days, worrying NASA doctors.[16]

Experienced aviators and space travelers can suffer from space sickness. Garn began piloting at the age of 16[15] and piloted a variety of military aircraft for 17,000 hours—more than any NASA astronaut—before STS-51-D. Charles D. Walker became ill on the same flight despite having flown on the shuttle before.[17][18] While the Skylab 3 crew quickly recovered—whether by eating six smaller meals instead of three larger ones, or just by becoming used to space—one of the Skylab 4 crew became sick despite anti-nausea medication.[16] Steven Smith estimated that on four shuttle flights he threw up 100 times.[11]

Space sickness that occurs during space flight can also continue for days after landing, until the vestibular system has again adapted to gravity.[19]

History edit

In August 1961, Soviet cosmonaut Gherman Titov became the first human to experience space sickness on Vostok 2; he was the first person to vomit in space.[20]

Apart from that record, space motion sickness was effectively unknown during the earliest spaceflights (Mercury, Gemini series) probably because these missions were undertaken in spacecraft providing very cramped conditions and permitting very little room for head movements; space sickness seems to be aggravated by being able to freely move around, especially in regard to head movement, and so is more common in larger spacecraft.[21]

See also edit

References edit

  1. ^ . NASA. 2001-08-07. Archived from the original on 2009-05-13. Retrieved 2009-05-28.
  2. ^ Golightly, Glen (October 20, 1999). . space.com. Archived from the original on 2006-03-10.
  3. ^ "Reduced Gravity: Vomit Comet Blog". PhysicsCentral. May 10, 2005. Retrieved 2007-11-07.
  4. ^ Quine, Tony (April 2007). "Addicted to space: An appreciation of Anousheh Ansari, Part II". Spaceflight. 49 (4): 144. ISSN 0038-6340.
  5. ^ a b c "Why Do Astronauts Suffer From Space Sickness?". ScienceDaily. 2008-05-23.
  6. ^ a b Thornton, William; Bonato, Frederick (2017-10-23). The Human Body and Weightlessness. Cham, Switzerland: Springer. doi:10.1007/978-3-319-32829-4. ISBN 978-3-319-32828-7. OCLC 1006502642.
  7. ^ Smith, Scott M.; Heer, Martina; Shackelford, Linda C.; Sibonga, Jean D.; Spatz, Jordan; Pietrzyk, Robert A.; Hudson, Edgar K.; Zwart, Sara R. (2015). "Bone metabolism and renal stone risk during International Space Station missions". Bone. 81: 712–720. doi:10.1016/j.bone.2015.10.002. PMID 26456109.
  8. ^ Gunga, Hanns-Christian; Ahlefeld, Victoria Weller von; Coriolano, Hans-Joachim Appell; Werner, Andreas; Hoffmann, Uwe (2016-07-14). Cardiovascular System, Red Blood Cells, and Oxygen Transport in Microgravity. Cham, Switzerland: Springer. Bibcode:2016csrb.book.....G. doi:10.1007/978-3-319-33226-0. ISBN 978-3-319-33226-0. OCLC 953694996.
  9. ^ Fritsch-Yelle, Janice M.; Leuenberger, Urs A.; D'Aunno, Dominick S.; Rossum, Alfred C.; Brown, Troy E.; Wood, Margie L.; Josephson, Mark E.; Goldberger, Ary L. (1998). "An Episode of Ventricular Tachycardia During Long-Duration Spaceflight". The American Journal of Cardiology. 81 (11): 1391–1392. doi:10.1016/s0002-9149(98)00179-9. PMID 9631987.
  10. ^ Clément, Gilles (2011). Fundamentals of space medicine (2nd ed.). El Segundo, Calif.: Published jointly by Microcosm Press. ISBN 9781441999054. OCLC 768427940.
  11. ^ a b c Leadbeater, Chris (2020-06-10). "The next astronaut on the moon will be a woman". The Telegraph. Retrieved 2020-06-17.
  12. ^ a b c Lackner, J. R. (2014). "Motion sickness: More than nausea and vomiting". Experimental Brain Research. 232 (8): 2493–2510. doi:10.1007/s00221-014-4008-8. PMC 4112051. PMID 24961738.
  13. ^ Kohl, R. L. (1983). "Sensory conflict theory of space motion sickness: An anatomical location for the neuroconflict". Aviation, Space, and Environmental Medicine. 54 (5): 464–5. PMID 6870740.
  14. ^ (PDF). Johnson Space Center Oral History Project. May 13, 1999. p. 35. Archived from the original (PDF) on 2008-03-08. Retrieved 2022-07-13.
  15. ^ a b c Lamar, Jacob V. Jr.; Hannifan, Jerry (April 22, 1985). . Time. Archived from the original on 2010-10-29. Retrieved April 13, 2011.
  16. ^ a b Elder, Donald C. (1998). "The Human Touch: The History of the Skylab Program". In Mack, Pamela E. (ed.). From Engineering Science to Big Science: The NACA and NASA Collier Trophy Research Project Winners. The NASA History Series. NASA. SP-4219.
  17. ^ Bolden, Charles F. (January 6, 2004). "Charles F. Bolden". NASA Johnson Space Center Oral History Project (Interview). Interviewed by Johnson, Sandra; Wright, Rebecca; Ross-Nazzal, Jennifer. Houston, Texas. Retrieved 2020-06-19.
  18. ^ Walker, Charles D. (14 April 2005). "Oral History Transcript". NASA Johnson Space Center Oral History Project (Interview). Interviewed by Johnson, Sandra.
  19. ^ Kornilova, L. N.; Naumov, I. A.; Glukhikh, D. O.; Ekimovskiy, G. A.; Pavlova, A. S.; Khabarova, V. V.; Smirnov, Yu. I.; Yarmanova, E. N. (2017). "Vestibular function and space motion sickness". Human Physiology. 43 (5): 557–568. doi:10.1134/S0362119717050085. S2CID 39254942.
  20. ^ Glenday, Craig, ed. (2012). Guinness World Records 2013. Guinness World Records. p. 27. ISBN 9781904994879.
  21. ^ Kozlovskaya, Inessa B.; et al. (2004). . NASA Johnson Space Center. Archived from the original on 2012-02-07. Retrieved 2008-02-07.

April 10, 2024
space, adaptation, syndrome, space, sickness, condition, experienced, many, half, space, travelers, during, their, adaptation, weightlessness, once, orbit, opposite, terrestrial, motion, sickness, since, occurs, when, environment, person, appear, visually, mot. Space adaptation syndrome SAS or space sickness is a condition experienced by as many as half of all space travelers during their adaptation to weightlessness once in orbit 4 It is the opposite of terrestrial motion sickness since it occurs when the environment and the person appear visually to be in motion relative to one another even though there is no corresponding sensation of bodily movement originating from the vestibular system 5 Space adaptation syndromeNASA astronauts acclimating themselves to space adaptation syndrome in a KC 135 airplane that flies parabolic arcs to create short periods of weightlessness 1 In about two thirds of the passengers these flights produce nausea 2 3 giving the plane its nickname vomit comet SpecialtySpace medicine Prevalence50 of individuals Contents 1 Presentation 2 Cause 3 Management 4 History 5 See also 6 ReferencesPresentation editSpace motion sickness can lead to degraded astronaut performance 6 32 SMS threatens operational requirements reduces situational awareness and threatens the safety of those exposed to micro g environments 6 Lost muscle mass leads to difficulty with movement especially when astronauts return to Earth This can pose a safety issue if the need for emergency egress were to arise Loss of muscle power makes it extremely difficult if not impossible for astronauts to climb through emergency egress hatches or create unconventional exit spaces in the case of a crash upon landing Additionally bone resorption and inadequate hydration in space can lead to the formation of kidney stones and subsequent sudden incapacitation due to pain 7 If this were to occur during critical phases of flight a capsule crash leading to worker injury and or death could result Short term and long term health effects have been seen in the cardiovascular system from exposure to the micro g environment that would limit those exposed after they return to Earth or a regular gravity environment Steps need to be taken to ensure proper precautions are taken into consideration when dealing a micro g environment for worker safety 8 9 Orthostatic intolerance can lead to temporary loss of consciousness due to the lack of pressure and stroke volume This loss of consciousness inhibits and endangers those affected and can lead to deadly consequences 10 Cause editYour body just isn t built to deal with zero gravity But there s no way of predicting how someone will handle it Someone who gets car sick all the time can be fine in space or the opposite I m fine in cars and on rollercoasters but space is a different matter Steven Smith 11 When the vestibular system and the visual system report incongruous states of motion the result is often nausea and other symptoms of disorientation known as motion sickness According to contemporary sensory conflict theory such conditions happen when the vestibular system and the visual system do not present a synchronized and unified representation of one s body and surroundings This theory is also known as neural mismatch implying a mismatch occurring between ongoing sensory experience and long term memory rather than between components of the vestibular and visual systems emphasizing the limbic system in integration of sensory information and long term memory in the expression of the symptoms of motion sickness and the impact of anti motion sickness drugs and stress hormones on limbic system function The limbic system may be the neural mismatch center of the brain 12 At present a fully adequate theory of motion sickness is not presently available but at present the sensory conflict theory referring to a discontinuity between either visual proprioceptive and somatosensory input or semicircular canal and otolith input may be the best available 13 Space adaptation syndrome or space sickness is a kind of motion sickness that can occur when one s surroundings visually appear to be in motion but without a corresponding sense of bodily motion This incongruous condition can occur during space travel when changes in g forces compromise one s spatial orientation 5 According to Science Daily Gravity plays a major role in our spatial orientation Changes in gravitational forces such as the transition to weightlessness during a space voyage influence our spatial orientation and require adaptation by many of the physiological processes in which our balance system plays a part As long as this adaptation is incomplete this can be coupled to nausea visual illusions and disorientation 5 Sleep deprivation can also increase susceptibility to space sickness making symptoms worse and longer lasting 12 According to the sensory conflict hypothesis space sickness is the opposite of the kinds of motion related disorientation that occur in the presence of gravity known as terrestrial motion sickness such as becoming carsick seasick or airsick In such cases and in contrast to space sickness one s surroundings seem visually immobile such as inside a car or airplane or a cabin below decks while one s body feels itself to be in motion Contemporary motion sickness medications can counter various forms of motion disorientation including space sickness by temporarily suppressing the vestibular system but are rarely used for space travel because it is considered better to allow space travelers to adapt naturally over the first one to seven days rather than to suffer the drowsiness and other side effects of medication taken over a longer period However transdermal dimenhydrinate anti nausea patches are typically used whenever space suits are worn because vomiting into a space suit could be fatal by obscuring vision or blocking airflow Space suits are generally worn during launch and landing by NASA crew members and always for extra vehicular activities EVAs EVAs are consequently not usually scheduled for the first days of a mission to allow the crew to adapt and transdermal dimenhydrinate patches are typically used as an additional backup measure Management editJust as space sickness has the opposite cause compared to terrestrial motion sickness the two conditions have opposite non medicinal remedies The idea of sensory conflict implies that the most direct remedy for motion sickness in general is to resolve the conflict by re synchronizing what one sees and what one feels For most but not all kinds of terrestrial motion sickness that can be achieved by viewing one s surroundings from a window or in the case of seasickness going up on deck to observe the seas For space sickness relief is available via the opposite move of restricting one s vision to a small area such as a book or a small screen disregarding the overall surroundings until the adaptation process is complete or simply to close one s eyes until the nauseated feeling is reduced in intensity during the adjustment period Some research indicates that blindness itself does not provide relief Motion sickness can occur during exposure to physical motion visual motion and virtual motion and only those without a functioning vestibular system are fully immune 12 As with sea sickness and car sickness space motion sickness symptoms can vary from mild nausea and disorientation to vomiting and intense discomfort headaches and nausea are often reported in varying degrees The most extreme reaction yet recorded was that felt by Senator Jake Garn in 1985 on Space Shuttle flight STS 51 D NASA later jokingly began using the informal Garn scale to measure reactions to space sickness In most cases symptoms last from 2 4 days When asked about the origins of Garn Robert E Stevenson said 14 Jake Garn was sick was pretty sick I don t know whether we should tell stories like that But anyway Jake Garn he has made a mark in the Astronaut Corps because he represents the maximum level of space sickness that anyone can ever attain and so the mark of being totally sick and totally incompetent is one Garn Most guys will get maybe to a tenth Garn if that high And within the Astronaut Corps he forever will be remembered by that Garn s purpose on the mission was in part to subject him to experiments on space motion sickness 15 Predicting whether someone will experience space sickness is not possible Someone who suffers from car sickness may not suffer from space sickness and vice versa 11 In excellent physical condition Garn did not become sick on the vomit comet before STS 51 D 15 All three astronauts on Skylab 3 suffered from nausea although the three on Skylab 2 had not the illness affected their work during the first few days worrying NASA doctors 16 Experienced aviators and space travelers can suffer from space sickness Garn began piloting at the age of 16 15 and piloted a variety of military aircraft for 17 000 hours more than any NASA astronaut before STS 51 D Charles D Walker became ill on the same flight despite having flown on the shuttle before 17 18 While the Skylab 3 crew quickly recovered whether by eating six smaller meals instead of three larger ones or just by becoming used to space one of the Skylab 4 crew became sick despite anti nausea medication 16 Steven Smith estimated that on four shuttle flights he threw up 100 times 11 Space sickness that occurs during space flight can also continue for days after landing until the vestibular system has again adapted to gravity 19 History editIn August 1961 Soviet cosmonaut Gherman Titov became the first human to experience space sickness on Vostok 2 he was the first person to vomit in space 20 Apart from that record space motion sickness was effectively unknown during the earliest spaceflights Mercury Gemini series probably because these missions were undertaken in spacecraft providing very cramped conditions and permitting very little room for head movements space sickness seems to be aggravated by being able to freely move around especially in regard to head movement and so is more common in larger spacecraft 21 See also edit nbsp Spaceflight portalAirsickness Effect of spaceflight on the human body Human spaceflight Micro g environment Space medicineReferences edit Mixed Up in Space NASA 2001 08 07 Archived from the original on 2009 05 13 Retrieved 2009 05 28 Golightly Glen October 20 1999 Flying The Vomit Comet Has Its Ups And Downs space com Archived from the original on 2006 03 10 Reduced Gravity Vomit Comet Blog PhysicsCentral May 10 2005 Retrieved 2007 11 07 Quine Tony April 2007 Addicted to space An appreciation of Anousheh Ansari Part II Spaceflight 49 4 144 ISSN 0038 6340 a b c Why Do Astronauts Suffer From Space Sickness ScienceDaily 2008 05 23 a b Thornton William Bonato Frederick 2017 10 23 The Human Body and Weightlessness Cham Switzerland Springer doi 10 1007 978 3 319 32829 4 ISBN 978 3 319 32828 7 OCLC 1006502642 Smith Scott M Heer Martina Shackelford Linda C Sibonga Jean D Spatz Jordan Pietrzyk Robert A Hudson Edgar K Zwart Sara R 2015 Bone metabolism and renal stone risk during International Space Station missions Bone 81 712 720 doi 10 1016 j bone 2015 10 002 PMID 26456109 Gunga Hanns Christian Ahlefeld Victoria Weller von Coriolano Hans Joachim Appell Werner Andreas Hoffmann Uwe 2016 07 14 Cardiovascular System Red Blood Cells and Oxygen Transport in Microgravity Cham Switzerland Springer Bibcode 2016csrb book G doi 10 1007 978 3 319 33226 0 ISBN 978 3 319 33226 0 OCLC 953694996 Fritsch Yelle Janice M Leuenberger Urs A D Aunno Dominick S Rossum Alfred C Brown Troy E Wood Margie L Josephson Mark E Goldberger Ary L 1998 An Episode of Ventricular Tachycardia During Long Duration Spaceflight The American Journal of Cardiology 81 11 1391 1392 doi 10 1016 s0002 9149 98 00179 9 PMID 9631987 Clement Gilles 2011 Fundamentals of space medicine 2nd ed El Segundo Calif Published jointly by Microcosm Press ISBN 9781441999054 OCLC 768427940 a b c Leadbeater Chris 2020 06 10 The next astronaut on the moon will be a woman The Telegraph Retrieved 2020 06 17 a b c Lackner J R 2014 Motion sickness More than nausea and vomiting Experimental Brain Research 232 8 2493 2510 doi 10 1007 s00221 014 4008 8 PMC 4112051 PMID 24961738 Kohl R L 1983 Sensory conflict theory of space motion sickness An anatomical location for the neuroconflict Aviation Space and Environmental Medicine 54 5 464 5 PMID 6870740 Interview with Dr Robert Stevenson PDF Johnson Space Center Oral History Project May 13 1999 p 35 Archived from the original PDF on 2008 03 08 Retrieved 2022 07 13 a b c Lamar Jacob V Jr Hannifan Jerry April 22 1985 Jake Skywalker A Senator boards the shuttle Time Archived from the original on 2010 10 29 Retrieved April 13 2011 a b Elder Donald C 1998 The Human Touch The History of the Skylab Program In Mack Pamela E ed From Engineering Science to Big Science The NACA and NASA Collier Trophy Research Project Winners The NASA History Series NASA SP 4219 Bolden Charles F January 6 2004 Charles F Bolden NASA Johnson Space Center Oral History Project Interview Interviewed by Johnson Sandra Wright Rebecca Ross Nazzal Jennifer Houston Texas Retrieved 2020 06 19 Walker Charles D 14 April 2005 Oral History Transcript NASA Johnson Space Center Oral History Project Interview Interviewed by Johnson Sandra Kornilova L N Naumov I A Glukhikh D O Ekimovskiy G A Pavlova A S Khabarova V V Smirnov Yu I Yarmanova E N 2017 Vestibular function and space motion sickness Human Physiology 43 5 557 568 doi 10 1134 S0362119717050085 S2CID 39254942 Glenday Craig ed 2012 Guinness World Records 2013 Guinness World Records p 27 ISBN 9781904994879 Kozlovskaya Inessa B et al 2004 The Effects of Long Duration Space Flight on Eye Head and Trunk Coordination During Locomotion NASA Johnson Space Center Archived from the original on 2012 02 07 Retrieved 2008 02 07 Retrieved from https en wikipedia org w index php title Space adaptation syndrome amp oldid 1217442175, wikipedia, wiki, book, books, library,

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