OBJECTIVE: To develop techniques for conducting a physical examination in microgravity and to describe and document the physiologic changes noted with use of a modified basic physical examination. DESIGN: On the basis of data gathered from physical examinations on KC-135 flights, three physical variables were assessed serially in astronauts during two shuttle missions (of 8- and 10-day duration, respectively). Preflight, in-flight, and postflight examinations were conducted by trained physician-astronauts or flight surgeons, who used this modified examination. MATERIAL AND METHODS: Five male and two female crewmembers participated in the "hands-on" physical examination of all physiologic systems except the genitourinary system. Level of edema, intensity of bowel sounds, and peripheral reflexes were assessed and graded. RESULTS: This investigation identified unique elements of a physical examination performed during space flight that will assist in the development of standard methods for conducting examinations of astronauts in weightlessness. In addition, demonstrable changes induced by microgravity were noted in most physiologic systems examined. CONCLUSION: The data support the hypothesis that the microgravity examination differs from that conducted on earth or in a 1g environment. In addition, alterations in the physiologic response can be detected with use of hands-on technique. These data are invaluable in the development of optimal medical care for humans in space.
OBJECTIVE: To develop techniques for conducting a physical examination in microgravity and to describe and document the physiologic changes noted with use of a modified basic physical examination. DESIGN: On the basis of data gathered from physical examinations on KC-135 flights, three physical variables were assessed serially in astronauts during two shuttle missions (of 8- and 10-day duration, respectively). Preflight, in-flight, and postflight examinations were conducted by trained physician-astronauts or flight surgeons, who used this modified examination. MATERIAL AND METHODS: Five male and two female crewmembers participated in the "hands-on" physical examination of all physiologic systems except the genitourinary system. Level of edema, intensity of bowel sounds, and peripheral reflexes were assessed and graded. RESULTS: This investigation identified unique elements of a physical examination performed during space flight that will assist in the development of standard methods for conducting examinations of astronauts in weightlessness. In addition, demonstrable changes induced by microgravity were noted in most physiologic systems examined. CONCLUSION: The data support the hypothesis that the microgravity examination differs from that conducted on earth or in a 1g environment. In addition, alterations in the physiologic response can be detected with use of hands-on technique. These data are invaluable in the development of optimal medical care for humans in space.
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NASA Center JSC; NASA Discipline Number 02-30; NASA Discipline Number 06-10; NASA Discipline Space Human Factors; NASA Program Clinical Medicine; NASA Program Space Human Factors
Authors: Ajitkumar P Mulavara; Alan H Feiveson; James Fiedler; Helen Cohen; Brian T Peters; Chris Miller; Rachel Brady; Jacob J Bloomberg Journal: Exp Brain Res Date: 2010-02-05 Impact factor: 1.972
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: Andrew G Lee; Thomas H Mader; C Robert Gibson; Tyson J Brunstetter; William J Tarver Journal: Eye (Lond) Date: 2018-03-12 Impact factor: 3.775
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