Appendix E
Systems Physiology Experiments Planned for the ISS
Experiment Number |
Experiment Title |
Investigator |
Target Mission (if known) |
NASA-Sponsored ISS Flight Experiments into Calendar Year 2004 |
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96-01-507 |
Human Orientation and Sensory Motor Coordination in Microgravity |
A. Berthoz |
Incr. 8-10 (6 Sz) |
98-02-120 |
Promoting Sensorimotor Response Generalizability During Inflight Treadmill Exercise: A Countermeasure to Mitigate Locomote Dysfunction After Long-Duration Space Flight |
Jacob J. Bloomberg |
Incr. 5-9 pre/post only, Incr. 10 in-flight |
99-03-046/99-03-377 |
Human Cardiovascular Performance in the Space Flight Environment |
Michael Bungo, Ben Levine |
Not manifested |
96-04-318 |
Foot Reaction Forces During Spaceflight |
P.R. Cavanagh |
Incr. 6 (launch ULF1) |
96-04-400 |
Effect of Prolonged Spaceflight on Human Skeletal Muscle |
R.H. Fitts |
Incr. 5, 6, 7, 8, 9 |
96-04-290 |
Effects of Microgravity on the Peripheral Subcutaneous Veno-Arteriolar Reflex in Humans |
A. Gabrielsen |
Incr. 3-4 (7A.1) |
96-01-096 |
Crew Member and Crew-Ground Interactions During International Space Station Missions |
N. Kanas |
Incr. 2-5, 7-10 |
96-04-343 |
Sub-regional Assessment of Bone Loss in the Axial Skeleton in Long-term Space Flight |
T.F. Lang |
Incr. 4-8 |
99-03-370 |
Influence of Sensory Integration on the Neural Processing of Gravito-inertial Cues |
Dan Merfeld |
Inc. 14 |
99-03-010 DSO TBD |
Chromosomal Aberrations in Blood Lymphocytes of Astronauts |
Gunter Obe |
Incr. 6-7 |
96-01-085 |
Human Orientation and Sensory Motor Coordination in Microgravity |
C.M. Oman (co-I with Berthoz) |
Incr. 10-12 |
99-03-049 DSO TBD |
A Comprehensive Characterization of Microorganisms and Allergens in Spacecraft Environment |
D.L. Pierson |
TBD |
96-04-094 |
Dosimetric Mapping |
G.F. Reitz, |
Incr. 2 |
98-02-497 |
Effects of Resistance Training, using Fly-Wheel Technology, on Size and Function of Skeletal Muscle in Crew Stationed in Space |
Per A. Tesch |
Not manifested |
96-04-011 |
A Study of Radiation Doses Experienced by Astronauts in EVA |
I. Thomson |
Incr. 4, 5, 6 |
96-04-082 |
Effects of Altered Gravity on Spinal Cord Excitability |
D.G.D. Watt |
Incr. 2-4 (5A.1) |
96-04-044 |
The Effects of EVA and Long-term Exposure to Microgravity on Pulmonary Function |
J. West |
Incr. 3-5, 7 (7A.1) |
Experiment Number |
Experiment Title |
Investigator |
Target Mission (if known) |
96-01-057 DSO 633 |
Renal Stone Risk During Space Flight: Assessment and Countermeasure Validation |
P.A. Whitson |
Incr. 3-10 (7A.1), STS-107, STS-113, R-2 |
SMO 008 |
Entry Monitoring |
Meck |
Incr. 8 |
SMO 006 |
Test of Midodrine as Countermeasure against Postflight Orthostatic Hypotension |
Meck |
Incr. 5, STS-108, 110, 111, 112, 109 |
NASA-Sponsored ISS Flight Monitoring |
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MR085L |
Neurocognitive Assessment (SCAT) |
|
All |
MR077L |
Physical Fitness Assessment |
All |
|
MR021L |
Crew Microbiology |
All |
|
MR016L |
Inflight weekly food frequency questionnaire |
All |
|
MR024L |
Body Mass Measurement |
All |
|
MR018L |
Inflight urinalysis/hematocrit |
All |
|
MR003L |
Radiation Biodosimetry |
All |
|
NASA-Sponsored ISS Pre/Post Flight Testing |
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MR035L |
Bone Densitometry |
|
All |
MR001L |
Operational Tilt Test |
All |
|
MR071L |
Holter Monitoring |
All |
|
MR010L |
Clinical Laboratory Assessment |
All |
|
MR077L |
Isokinetic Dynamometry/FASTEX |
All |
|
MR042L |
Functional Neurological Assessment |
All |
|
Russian Flight Experiments |
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MBI-1 |
Study of human body fluids under conditions of long-duration spaceflight |
|
|
MBI-3 |
Study of peridontal tissue conditions under spaceflight conditions |
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MBI-4 |
Study of pharmacological influences under long-duration space mission conditions |
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MBI-5 |
Intergrated study of the dynamics of the primary parameters of cardiac activity and blood circulation, using a lower body negative pressure (LBNP) apparatus |
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MBI-8 |
Study of the action mechanism and efficacy of various countermeasures aimed at preventing locomotion system disorders in weightlessness |
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MBI-9 |
Study of autonomic regulation of the human cardiovascular system in weightlessness |
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RBO-1 |
Development of a method for real-time prediction of dose loads on the crews of manned space missions |