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Appendix E: Systems Physiology Experiments Planned for the ISS
Pages 77-79

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From page 77... ... 10 in-flight 99-03-046/99-03-377 Human Cardiovascular Performance in the Space Michael Bungo, Not manifested Flight Environment Ben Levine 96-04-318 Foot Reaction Forces During Spaceflight P.R. Cavanagh Incr. Read the entire page →
From page 78... ... 5, STS-108, 1 10, Postflight Orthostatic Hypotension 1 1 1, 1 12, 109 NASA-Sponsored ISS Flight Monitoring MR085L Neurocognitive Assessment (SCAT) All MR077L Physical Fitness Assessment All MR021L Crew Microbiology All MRO 1 6L Inflight weekly food frequency questionnaire All MR024L Body Mass Measurement All MRO 1 8L Inflight urinalysis/hematocrit All MR003L Radiation Biodosimetry All NASA-Sponsored ISS Pre/Post Flight Testing MR035L Bone Densitometry All MROOlL Operational Tilt Test All MR071L Hotter Monitoring All MROlOL Clinical Laboratory Assessment All MR077L Isokinetic Dynamometry/FASTEX All MR042L FunctionalNeurological Assessment All Russian Flight Experiments MBI- 1 MBI-3 MBI-4 MBI-5 MBI-8 MBI-9 RBO-1 Study of human body fluids under conditions of long-duration spaceflight Study of peridontal tissue conditions under spaceflight conditions Study of pharmacological influences under longduration space mission conditions Intergrated study of the dynamics of the primary parameters of cardiac activity and blood circulation, using a lower body negative pressure (LBNP) Read the entire page →
From page 79... ... Human motor system readaptation to gravitation Tendometria Micrgravity impact on induced muscular contraction. Long-duration spaceflight impact on the muscular and peripheral nervous apparatus Ravonvesie Sensory and motor mechanisms in vertical posture control after long-duration exposure to microgravity Sensory adaptation Countermeasures and correction of adaptation to space syndrome and of motion sickness Lokomotsii Kinematic and dynamic locomotion characteristics prior to and after spaceflight Peregruzki G-forces on Soyuz and recommendations for anti G force countermeasure development Polymorphism Genotype parameters related to human individual tolerance to spaceflight conditions Thermographia Human peripheral thermoregulation during readaptation after long-duration spaceflight Khemoluminomer Spaceflight factors impact on free-radical oxidation level, as well as changes in human organism during readaptation to Earth conditions NOTE: Table includes experiments in all areas of systems physiology including cardiovascular studies and musculoskeletal studies, which are also broken out separately in Appendixes F and G Read the entire page →

From page 77...

... 10 in-flight 99-03-046/99-03-377 Human Cardiovascular Performance in the Space Michael Bungo, Not manifested Flight Environment Ben Levine 96-04-318 Foot Reaction Forces During Spaceflight P.R. Cavanagh Incr.

Read the entire page →

From page 78...

... 5, STS-108, 1 10, Postflight Orthostatic Hypotension 1 1 1, 1 12, 109 NASA-Sponsored ISS Flight Monitoring MR085L Neurocognitive Assessment (SCAT) All MR077L Physical Fitness Assessment All MR021L Crew Microbiology All MRO 1 6L Inflight weekly food frequency questionnaire All MR024L Body Mass Measurement All MRO 1 8L Inflight urinalysis/hematocrit All MR003L Radiation Biodosimetry All NASA-Sponsored ISS Pre/Post Flight Testing MR035L Bone Densitometry All MROOlL Operational Tilt Test All MR071L Hotter Monitoring All MROlOL Clinical Laboratory Assessment All MR077L Isokinetic Dynamometry/FASTEX All MR042L FunctionalNeurological Assessment All Russian Flight Experiments MBI- 1 MBI-3 MBI-4 MBI-5 MBI-8 MBI-9 RBO-1 Study of human body fluids under conditions of long-duration spaceflight Study of peridontal tissue conditions under spaceflight conditions Study of pharmacological influences under longduration space mission conditions Intergrated study of the dynamics of the primary parameters of cardiac activity and blood circulation, using a lower body negative pressure (LBNP)

Read the entire page →

From page 79...

... Human motor system readaptation to gravitation Tendometria Micrgravity impact on induced muscular contraction. Long-duration spaceflight impact on the muscular and peripheral nervous apparatus Ravonvesie Sensory and motor mechanisms in vertical posture control after long-duration exposure to microgravity Sensory adaptation Countermeasures and correction of adaptation to space syndrome and of motion sickness Lokomotsii Kinematic and dynamic locomotion characteristics prior to and after spaceflight Peregruzki G-forces on Soyuz and recommendations for anti G force countermeasure development Polymorphism Genotype parameters related to human individual tolerance to spaceflight conditions Thermographia Human peripheral thermoregulation during readaptation after long-duration spaceflight Khemoluminomer Spaceflight factors impact on free-radical oxidation level, as well as changes in human organism during readaptation to Earth conditions NOTE: Table includes experiments in all areas of systems physiology including cardiovascular studies and musculoskeletal studies, which are also broken out separately in Appendixes F and G

Read the entire page →

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Appendix E: Systems Physiology Experiments Planned for the ISS Pages 77-79

Appendix E: Systems Physiology Experiments Planned for the ISS
Pages 77-79