Basic Issues of Human Adaptation to Space Flight

[1]  D F Stewart,et al.  Analysis of sleep on Shuttle missions. , 1988, Aviation, space, and environmental medicine.

[2]  L A Palinkas,et al.  Longitudinal studies of behavior and performance during a winter at the South Pole. , 1998, Aviation, space, and environmental medicine.

[3]  Hans P. A. Van Dongen,et al.  Comparison of mathematical model predictions to experimental data of fatigue and performance , 2004 .

[4]  I M Stoilova,et al.  How human sleep in space--investigations during space flights. , 2003, Advances in space research : the official journal of the Committee on Space Research.

[5]  A D Egorov,et al.  Ethical problems of interaction between ground-based personnel and orbital station crewmembers. , 1988, Acta astronautica.

[6]  Jürgen Zulley,et al.  The dependence of onset and duration of sleep on the circadian rhythm of rectal temperature , 1981, Pflügers Archiv.

[7]  Paul D. Nelson,et al.  From Antarctica to Outeer Space: Life in Isolation and Confinement. , 1992 .

[8]  G. Clément,et al.  Centrifugation as a countermeasure during actual and simulated microgravity: a review , 2004, European Journal of Applied Physiology.

[9]  A. R. Elliott,et al.  Sleep, performance, circadian rhythms, and light-dark cycles during two space shuttle flights. , 2001, American journal of physiology. Regulatory, integrative and comparative physiology.

[10]  R. Kronauer,et al.  Stability, precision, and near-24-hour period of the human circadian pacemaker. , 1999, Science.

[11]  L A Palinkas,et al.  Behavior and performance on long-duration spaceflights: evidence from analogue environments. , 2000, Aviation, space, and environmental medicine.

[12]  P S Cowings,et al.  The relationship of motion sickness susceptibility to learned autonomic control for symptom suppression. , 1982, Aviation, space, and environmental medicine.

[13]  H. Selye The Stress of Life , 1958 .

[14]  M M Mallis,et al.  Circadian rhythms, sleep, and performance in space. , 2005, Aviation, space, and environmental medicine.

[15]  D. Mirkin Space Physiology and Medicine , 1990 .

[16]  Maria L. Thomas,et al.  Patterns of performance degradation and restoration during sleep restriction and subsequent recovery: a sleep dose‐response study , 2003, Journal of sleep research.

[17]  A. Borbély A two process model of sleep regulation. , 1982, Human neurobiology.

[18]  Christopher F Flynn,et al.  An operational approach to long-duration mission behavioral health and performance factors. , 2005, Aviation, space, and environmental medicine.

[19]  Erika Friedmann,et al.  Physiological Correlates of Human Behavior , 1986 .

[20]  J Stuster,et al.  The relative importance of behavioral issues during long-duration ICE missions. , 2000, Aviation, space, and environmental medicine.

[21]  Jack Stuster,et al.  Bold Endeavors: Lessons from Polar and Space Exploration , 1996 .

[22]  V V Polyakov,et al.  The alteration of human sleep and circadian rhythms during spaceflight , 1997, Journal of sleep research.

[23]  L R Young,et al.  Artificial Gravity Considerations for a Mars Exploration Mission , 1999, Annals of the New York Academy of Sciences.

[24]  T. Monk,et al.  The timing of bedtime and waketime decisions in free-running subjects. , 1989, Psychophysiology.

[25]  Amy Berning,et al.  The Third-Quarter Phenomenon: Do People Experience Discomfort After Stress Has Passed? , 1991 .

[26]  D F Stewart,et al.  Space motion sickness during 24 flights of the space shuttle. , 1988, Aviation, space, and environmental medicine.

[27]  A P Nechaev Work and rest planning as a way of crew member error management. , 2001, Acta astronautica.

[28]  Gilles Clément,et al.  Fundamentals of Space Medicine , 2005 .

[29]  D. Manzey,et al.  Mental performance in extreme environments: results from a performance monitoring study during a 438-day spaceflight. , 1998, Ergonomics.

[30]  Daniel J Buysse,et al.  Using nine 2-h delays to achieve a 6-h advance disrupts sleep, alertness, and circadian rhythm. , 2004, Aviation, space, and environmental medicine.

[31]  A. H. Clarke,et al.  The three-dimensional vestibulo-ocular reflex during prolonged microgravity , 1996, Experimental Brain Research.

[32]  T H Monk,et al.  Sleep and Circadian Rhythms in Four Orbiting Astronauts , 1998, Journal of biological rhythms.

[33]  M. Vejvoda,et al.  Sleep and circadian rhythm during a short space mission , 1993, The clinical investigator.

[34]  J. Zulley,et al.  The influence of isolation on psychological and physiological variables. , 2000, Aviation, space, and environmental medicine.

[35]  Hans P. A. Van Dongen,et al.  Optimizing sleep/wake schedules in space: Sleep during chronic nocturnal sleep restriction with and without diurnal naps , 2007 .

[36]  A. Pack,et al.  Cumulative sleepiness, mood disturbance, and psychomotor vigilance performance decrements during a week of sleep restricted to 4-5 hours per night. , 1997, Sleep.

[37]  Robert M. Zubrin,et al.  The Case for Mars , 1996 .

[38]  Gilles Clément,et al.  Alteration of eye movements and motion perception in microgravity , 1998, Brain Research Reviews.

[39]  N Kanas,et al.  Crewmember and ground personnel interactions over time during Shuttle/Mir space missions. , 2001, Aviation, space, and environmental medicine.

[40]  Douglas A. Lawrence,et al.  Generating artificial gravity onboard the Space Shuttle , 2007 .

[41]  V. Gushin,et al.  Chapter 2 Soviet Psychophysiological Investigations Of Simulated Isolation: Some Results And Prospects , 1993 .

[42]  A Gundel,et al.  QUANTITY AND QUALITY OF SLEEP DURING THE RECORD MANNED SPACE FLIGHT OF 438 DAYS , 2001 .

[43]  Paul DiZio,et al.  Space motion sickness , 2006, Experimental Brain Research.

[44]  Anatoly I. Grigoriev,et al.  The Russian experience in medical care and health maintenance of the International Space Station crews , 2007 .

[45]  L A Palinkas,et al.  Stages of Change in Mood and Behavior During a Winter in Antarctica , 2000, Environment and behavior.

[46]  T H Monk,et al.  Decreased Human Circadian Pacemaker Influence After 100 Days in Space: A Case Study , 2001, Psychosomatic medicine.

[47]  P Suedfeld,et al.  The environmental psychology of capsule habitats. , 2000, Annual review of psychology.

[48]  R. Wever,et al.  The Circadian System of Man: Results of Experiments Under Temporal Isolation , 1979 .

[49]  P S Cowings,et al.  Autogenic‐Feedback Training Exercise Is Superior to Promethazine for Control of Motion Sickness Symptoms , 2000, Journal of clinical pharmacology.

[50]  B. Cohen,et al.  Perception of tilt (somatogravic illusion) in response to sustained linear acceleration during space flight , 2001, Experimental Brain Research.

[51]  Cohen Mm Perception of facial features and face-to-face communications in space. , 2000 .

[52]  M. Greaser,et al.  Muscle Structure and Function , 2009 .

[53]  R D Billica,et al.  Pharmaceutical use by U.S. astronauts on space shuttle missions. , 1999, Aviation, space, and environmental medicine.

[54]  N Kanas,et al.  Crewmember interactions during a Mir space station simulation. , 1996, Aviation, space, and environmental medicine.

[55]  E I Matsnev,et al.  Space motion sickness: phenomenology, countermeasures, and mechanisms. , 1983, Aviation, space, and environmental medicine.

[56]  É. Rosnet,et al.  A Longitudinal Assessment of Psychological Adaptation During a Winter-Over in Antarctica , 2005 .

[57]  R. Fitzpatrick,et al.  The vestibular system , 2005, Current Biology.

[58]  J D Frost,et al.  Sleep monitoring: the second manned Skylab mission. , 1976, Aviation, space, and environmental medicine.

[59]  V. V. Lebedev,et al.  Diary of a cosmonaut : 211 days in space , 1988 .

[60]  A Berthoz,et al.  Gaze control in microgravity. 1. Saccades, pursuit, eye-head coordination. , 1993, Journal of vestibular research : equilibrium & orientation.

[61]  D. Dinges,et al.  The cumulative cost of additional wakefulness: dose-response effects on neurobehavioral functions and sleep physiology from chronic sleep restriction and total sleep deprivation. , 2003, Sleep.

[62]  I B Kozlovskaya,et al.  Countermeasure of the negative effects of weightlessness on physical systems in long-term space flights. , 1995, Acta astronautica.

[63]  C A Czeisler,et al.  Human sleep: its duration and organization depend on its circadian phase. , 1980, Science.

[64]  H Ursin,et al.  Interpersonal relations during simulated space missions. , 1995, Aviation, space, and environmental medicine.

[65]  D L Harm,et al.  Psychological Changes in Hundred-Day Remote Antarctic Field Groups , 1999, Environment and behavior.

[66]  A D Kelly,et al.  Crewmember communication in space: a survey of astronauts and cosmonauts. , 1992, Aviation, space, and environmental medicine.

[67]  A I Grigoriev,et al.  General mechanisms of the effect of weightlessness on the human body. , 1992, Advances in space biology and medicine.

[68]  William H Paloski,et al.  Posture, locomotion, spatial orientation, and motion sickness as a function of space flight , 1998, Brain Research Reviews.

[69]  Peter Suedfeld,et al.  Temporal Patterns of Affect in an Isolated Group , 1991 .

[70]  G M Sandal Crew Tension during a Space Station Simulation , 2001, Environment and behavior.

[71]  M G Paulin,et al.  Adaptation of sleep and circadian rhythms to the Antarctic summer: a question of zeitgeber strength. , 1991, Aviation, space, and environmental medicine.