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References
ACSM. The recommended quantity and quality of exercise for developing and
maintaining cardiorespiratory and muscular fitness in healthy adults. Med.
Sci. Sports Exerc. 22: 265-274, 1990.
Anderson S.A. & S.H. Cohn. Bone demineralization during spaceflight. Physiol.
28(4): 212-217, 1985.
Arnaud S.B. & E. Morey-Holton. Gravity, calcium & bone: update, 1989.
Physiol. 33(1Suppl.): S65-S68, 1990.
Bachl N., R. Baron, H. Tschan, M. Mossaheb, W. Bumba, F, Hildebrand, M. Knauf,
M. Witt, R. Albrecht, I. Kozlovskaya & N. Charitonov. Grundlagen der muskulären
Leistungsfähigkeit unter Bedingungen der Schwerelosigkeit. Wiener Med.
Wochenschrift 143(23-24): 588-610, 1993.
Bachl N., H. Tschan, R. Baron, I. Kozlovskaya, N. Charitonov, M. Mossaheb
& R. Albrecht. Effects of weightlessness and hypokinesia on strength properties
of cosmonauts during long term spaceflight (abstract). Program of the 67th
annual scientific meeting of the Aerospace Medical Association: A42, 1996.
Baldwin K.M. Effects of spaceflight on the functional, biochemical, and metabolic
properties of skeletal muscle. Med. Sci. Sports Exerc. 28(8): 983-987,
1996.
Baron R., N. Bachl, R. Petschnig & H. Tschan. The constant velocity translatoric
dynamo ergometer. A new approach to investigate neuromuscular, metabolic, and
cardiovascular parameters (abstract). Int. J. Sports Med. 15(Suppl. 1):
S38-S42, 1994.
Berg, H.E. & P.A. Tesch. A gravity-independent ergometer to be used for
resistance training in space. Aviat. Space Environ. Med. 65: 752-756,
1994.
Berry C.A. Man's response to a new environment including weightlessness: Gemini
biomedical results. In: Some problems of aviation and space medicine,
Morávek, M. & J. Dvorák (Eds.). Universita Karlova, Praha,
Czechoslovakia: 29-42, 1967.
Bloomfield S.A. Changes in musculoskeletal structure and function with prolonged
bed rest. Med. Sci. Sports Exerc. 29(2): 197-206, 1997.
Bosch C. van de. Osteoporose, factoren van fysieke onder/overbelasting. Vrije
Universiteit, Faculty of Human Movement Sciences, Amsterdam, The Netherlands,
1993.
Botden E.T.P. & H.C.G. Kemper. Invloed van lichamelijke activiteit op
osteoporose. Geneeskunde en Sport 29(4): 99-104, 1996.
Busby D.E. Space clinical medicine - a prospective look at medical problems
from hazards of space operations. D. Reidel Publishing Company, Dordrecht, The
Netherlands, 1968.
Casaburi R. Principles of exercise training. Chest 101(5Suppl.): 263S-267S,
1992.
Castellsaguer J. Muscle atrophy research and exercise system (MARES); Proposal.
Issue 1. ESA/ESTEC/GPA, Noordwijk, The Netherlands, 1995.
Castellsaguer J. Muscle atrophy research and exercise system (MARES); Study
phase, statement of work. Issue 2. ESA/ESTEC/GPA, Noordwijk, The Netherlands,
1996.
Cavanagh, P.R., B.L. Davis & T.A. Miller. A biomechanical perspective
on exercise countermeasures for long term spaceflight. Aviat. Space Environ.
Med. 63: 482-485,1992.
Charles J.B. & C.M. Lathers. Summary of lower body negative pressure experiments
during space flight. J. Clin. Pharmacol. 34(6): 571-583, 1994.
Chestnut III C.H. Noninvasive techniques for measuring bone mass: A comparative
review. Clin. Obstet. and Gynecol. 30(4): 812-819, 1987.
Chilibeck P.D., D.G. Sale & C.E. Webber. Exercise and bone mineral density.
Sports Med. 19(2): 103-122, 1995.
Convertino V.A. Physiological adaptations to weightlessness: effects on exercise
and work performance. Exerc. Sport Sci. Rev. 18: 119-166, 1990.
Convertino V.A. Neuromuscular aspects in development of exercise countermeasures.
Physiol. 34(1Suppl.): S125-S128, 1991.
Convertino V.A. Exercise as a countermeasure for physiological adaptation
to prolonged spaceflight. Med. Sci. Sports Exerc. 28(8): 999-1014, 1996.
Convertino V.A., S.A. Bloomfield & J.E. Greenleaf. Symposium: Physiologic
effects of bed rest and restricted physical activity. An update. Med. Sci.
Sports Exerc. 29(2): 187-190, 1997.
Crandell C.G., J.M. Johnson, V.A. Convertino, P.B. Raven & K.A. Engelke.
Altered thermoregulatory responses after 15 days of head-down tilt. J. Appl.
Physiol. 77(4): 1863-1867, 1994.
Davis B.L. & P.R. Cavanagh. Simulating reduced gravity: a review of biomechanical
issues pertaining to human locomotion. Aviat. Space Environ. Med. 64(6):
557-566, 1993.
Davis B.L., P.R. Cavanagh, H.J. Sommer III & G. Wu. Ground reaction forces
during locomotion in simulated microgravity. Aviat. Space Environ. Med. 67(3):
235-242, 1996.
Diffee G.M., V.J. Caiazzo, S.A. McCue, R.E. Herrick & K.M. Baldwin. Activity-induced
regulation of myosin isoform distribution: comparison of two contractile activity
programs. J. Appl. Physiol. 74(5): 2509-2516, 1993.
Drinkwater, B.L, S.K. Grimston, D.M. Raab-Cullen & C.M. Snow-Harter. ACSM
position stand on osteoporosis and exercise. Med. Sci. Sports Exerc. 27(4):
i-vii, 1995.
Dudley G.A., B.M. Hather & P. Buchanan. Skeletal muscle responses to unloading
with special reference to man. J. Florida Med. Assoc. 79(8): 525-529,
1992.
Duncan R.L. & C.H. Turner. Mechanotransduction and the functional response
of bone to mechanical strain. Calcif. Tissue Int. 57: 344-358, 1995.
Durnova G.N., T.E. Burkovskaia, E.V. Vorotnikova, A.S. Kaplanskii &
O.V. Arustamov. The effect of weightlessness on fracture healing of rats flown
on the biosatellite Cosmos-2044 (abstract). [Vliianie nevesomosti na zazhivlenie
perelomov kostei u krys, eksponirovannykh na biosputnike "Kosmos-2044"]. Kosmicheskaia
Biologiia i Aviakosmicheskaia Meditsina 25(5): 29-33, 1991.
Edgerton V.R., M-Y. Zhou, Y. Ohira, H. Klitgaard, B. Jiang, G. Bell, B. Harris,
B. Saltin, P.D. Gollnick, R.R. Roy, M.K. Day & M. Greenisen. Human fiber
size and enzymatic properties after 5 and 11 days of spaceflight. J. Appl.
Physiol. 78(5): 1733-1739, 1995.
Elliot A.R., G.K. Prisk, H.J.B. Guy & J.B. West. Lung volumes during sustained
microgravity on spacelab SLS-1. J. Appl. Physiol. 77(4): 2005-2014,
1994.
Engel L.A. Effect of microgravity on the respiratory system. J. Appl. Physiol.
70(5): 1907-1911, 1991.
Epstein M. Renal effects of head out water immersion in humans: a 15-year
update. Physiol. Rev. 72(3): 563-621, 1992.
Forwood M.R. & D.B. Burr. Physical activity and bone mass: exercises in
futility? Bone and Min. 21(2): 89-112, 1993.
Fritsch-Yelle J.M., J.B. Charles, M.M. Jones, L.A. Beightol & D.L. Eckberg.
Spaceflight alters autonomic regulation of arterial pressure in humans. J.
Appl. Physiol. 77(4): 1776-1783, 1994.
Frost H.M. Vital biomechanics: proposed general concepts for skeletal adaptations
to mechanical usage. Calcif. Tissue Int. 42: 145-156, 1988.
Goldstein D.S., J. Vernikos, C. Holmes & V.A. Convertino. Catecholaminergic
effects of prolonged head-down bedrest. J. Appl. Physiol. 78(3): 1023-1029,
1995.
Gordon T. & M.C. Pattullo. Plasticity of muscle fiber and motor unit types.
Exerc. Sport Sci. Rev. 21: 331-362, 1993.
Greenleaf J.E. Intensive exercise training during bed rest deconditioning.
Med. Sci. Sports Exerc. 29(2): 207-215, 1997.
Greenleaf J.E., R. Bulbulian, E.M. Bernauer, W.L. Haskell & T. Moore.
Exercise-training protocols for astronauts in microgravity. J. Appl. Physiol.
67(6): 2191-2204, 1989.
Grigoriev A.I., S.A. Bugrov, V.V. Bogomolov, A.D. Egorov, I.B. Kozlovskaya,
I.D. Pestov, V.V. Polyakov & I.K. Tarasov. Preliminary medical results of
the Mir year-long mission. Acta Astronautica 23: 1-8, 1991a.
Grigoriev A.I., S.A. Bugrov, V.V. Bogomolov, A.D. Egorov, I.B. Kozlovskaya,
I.D. Pestov, V.V. Polyakov & I.K. Tarasov. Medical results of the Mir year-long
mission. Physiol. 34(1Suppl.): S44-S48, 1991b.
Grigoriev A.I., B.V. Morukov, V.S. Oganov, A.S. Rakhmanov & L.B. Buravkova.
Effect of exercise and bisphosphonate on mineral balance and bone density during
360 day antiorthostatic hypokinesia. J. Bone Min. Res. 7(Suppl.2): S449-S455,
1992.
Grigoriev A.I., B.V. Morukov & D.V. Vorobiev. Water and electrolyte studies
during long-term missions onboard the space stations SALYUT and MIR. Clin.
Investig. 72(3): 169-189, 1994.
Groothausen J., H. Siemer, H.C.G. Kemper, J. Twisk & D.C. Welten. Influence
of peak strain on lumbar bone mineral density: an analysis of 15 year physical
activity in young males and females. Ped. Exerc. Sc. 9(2): 159-173, 1997.
Gutin B. & M.J. Kasper. Can vigorous exercise play a role in osteoporosis
prevention? - a review. Osteoporosis Int. 2: 55-69, 1992.
Hargens A.R. Recent bed rest results and countermeasure development at NASA.
Acta Physiol. Scand. 150(Suppl.616): 103-114, 1994.
Hargens A.R. & D.E. Watenpaugh. Cardiovascular adaptation to spaceflight.
Med. Sci. Sports Exerc. 28(8): 977-982, 1996.
Hayes, J.C., J.J. McBrine, M.L. Roper, M.D. Stricklin, S.F. Siconolfi &
M.C. Greenisen. Effects of space shuttle flights on skeletal muscle performance
(abstract). FASEB J. 6: A1770, 1992.
Hon, F.D. de, M. Ehlers, S. Rose-John, S.B. Ebeling, H.K. Bos, L.A. Aarden
& J.P. Brakenhoff. Development of an interleukin (IL) 6 receptor antagonist
that inhibits IL-6-dependent growth of human myeloma cells (abstract). J.
Exp. Med. 180(6): 2395-2400, 1994.
Hortobagyi T., J.P. Hill, J.A. Houmard, D.D. Fraser, N.J. Lambert & R.G.
Israel. Adaptive responses to muscle lengthening and shortening in humans. J.
Appl. Physiol. 80(3): 765-772, 1996.
Hortobagyi T., N.J. Lambert & J.P. Hill. Greater cross education following
training with muscle lengthening than shortening. Med. Sci. Sports Exerc.
29(1): 107-112, 1997.
Jennings R.T. & J.P. Bagian. Musculoskeletal injury review in the U.S.
space program. Aviat. Space Environ. Med. 67(8): 762-766, 1996.
Jennings R.T. & P.A. Santy. Reproduction in the space environment: part
II. Concerns for human reproduction. Obstet. Gynecol. Surv. 45(1): 7-17,
1990.
Jeukendrup A., W.H.M. Saris & F. Brouns. Substraatgebruik tijdens inspanning:
de rol van vetten. Geneeskunde en Sport 27(4): 116-124, 1994.
Jones D.A. & J.M. Round. Skeletal muscle in health and disease. Manchester
University Press, Manchester, United Kingdom, 1992.
Kirby C.R., M.J. Ryan & F.W. Booth. Eccentric exercise training as a countermeasure
to non-weight-bearing soleus muscle atrophy. J. Appl. Physiol. 73(5):
1894-1899, 1992.
Klein, K.E., H.M. Wegmann & P. Kuklinski. Athletic endu-rance training
advantage for spaceflight?: the signifi-cance of physical fitness for selection
and training of Spacelab crews. Aviat. Space Environ. Med. 48(3): 215-22,
1977.
Knoche H.W. Radioisotopic methods for biological and medical research. Oxford
University Press, New York, USA: 329-335, 1991.
Konstantinova I.V., G. Sonnenfeld, L. Schaffar & A. Mastro. Results of
immunological experiments aboard the Cosmos Biosatellites and problems in space
immunology. Physiol. 35(1Suppl.): S220-S221, 1992.
Konstantinova I.V., M.P. Rykova, A.T. Lesnyak & E.A. Antropova. Immune
changes during long-duration missions. J. Leukoc. Biol. 54(3): 189-201,
1993.
Kozlovskaya I.B., V.A. Barmin, V.I. Stepantsov & N.M. Kharitonov. Results
of studies of motor functions in long-term space flights. Physiol. 33
(1Suppl.): S1-S3, 1990.
Lampe L., K. Wienhold, G. Meyer, F. Baisch, H. Maass, W. Hollmann & R.
Rost. Effects of simulated microgravity (HDT) on blood fluidity. J. Appl.
Physiol. 73(4): 1366-1369, 1992.
Lane H.W., A.D. LeBlanc, L. Putcha & P.A. Whitson. Nutrition and human
physiological adaptations to spaceflight. Am. J. Clin. Nutr. 58(5): 583-588,
1993.
Lane H.W., S.M. Smith, B.L. Rice & C.T. Bourland. Nutrition in space:
lessons from the past applied to the future. Am. J. Clin. Nutr. 60(5):
S801-S805, 1994.
LeBlanc A.D. & V. Schneider. Can the adult skeleton recover lost bone?
Exp. Gerontol. 26(2-3): 189-201, 1991.
LeBlanc A.D., V.S. Schneider, H.J. evans, D.A. Engelbretson & J.M. Krebs.
Bone mineral loss and recovery after 17 weeks of bed rest. J. bone Min. Res.
5(8): 843-850, 1990.
LeBlanc A.D., V.S. Schneider, H.J. evans, C. Pientok, R. Rowe & E. Spector.
Regional changes in muscle mass following 17 weeks of bed rest. J. Appl.
Physiol. 73(5): 2172-2178, 1992.
Leterme D. & M. Falempin. Compensatory effects of chronic electrostimulation
on unweighted rat soleus muscle. Pflügers Arch. 426(1-2): 155-160,
1994.
Loon J.J. van, D.J. Bervoets, E.H. Burger, S.C. Dieudonne, J.W. Hagen, C.M.
Semeins, B.Z. Doulabi & J.P. Veldhuijzen. Decreased mineralization and increased
calcium release in isolated fetal mouse long bones under near weightlessness
(abstract). J. Bone Miner. Res. 10(4): 550-557, 1995.
Louisy, F., P. Berry, J.F. Marini, A. Güell & C.Y. Guezen-nec. Characteristics
of the venous hemodynamics of the leg under simulated weightlessness: effects
of physical exercise as countermeasure. Aviat. Space Environ. Med. 66:
542-549, 1995.
Mack P.B., P.A. LaChance, G.P. Vose & F.B. Vogt. Bone demineralization
of foot and hand of Gemini-Titan IV, V and VII astronauts during orbital flight.
Am. J. Roentgenol., Rad. Therapy & Nuclear Med. 100(3): 503-511,
1967.
Maillet A., A. Pavy-le Traon, A.M. Allevard, D. Sigaudo, R.L. Hughson, C.
Gharib & G. Gauquelin. Hormone changes induced by 37.5-h head-down tilt
(-6°) in humans. Eur. J. Appl. Physiol. 68: 497-503, 1994.
McBrine J.J., J.C. Hayes & S.F. Siconolfi. Effects of in-flight exercise
on skeletal muscle performance (abstract). FASEB J. 6: A1770, 1992.
McCuaig K. Surgical problems in space: an overview. J. Clin. Pharmacol.
34(5): 513-517, 1994.
McLeod K.J. & C.T. Rubin. The effect of low-frequency electrical fields
on osteogenesis. J. Bone Joint Surg. 74A(6): 920-929, 1992.
Miller E.S., D.A. Koebel & G. Sonnenfeld. Influence of spaceflight on
the production of interleukin-3 and interleukin-6 by rat spleen and thymus cells
(abstract). J. Appl. Physiol. 78(3): 810-813, 1995.
Minaire P. Immobilization osteoporosis: a review. Clin. Rheumatol. 8(Suppl.2):
S95-S103, 1989.
Newberg A.B. Changes in the central nervous system and their clinical correlates
during long-term spaceflight. Aviat. Space Environ. Med. 65: 562-572,
1994.
Nicogossian A.E. 29th Annual Harry G. Armstrong lecture: The human space enterprise
in the 21st century. Aviat. Space Environ. Med. 65: 1149-1152,
1994.
Oganov V.S., S.A. Skuratova & L.M. Murashko. Contractile properties of
skeletal muscles of rats after flight on "Kosmos-1887" (abstract). [Sokratitel'nye
svoistva skeletnykh myshts krys posle poleta na iskusstvennom sputnike zemli
"Kosmos-1887"]. Kosmicheskaia Biologiia i Aviakosmicheskaia Meditsina
25(2): 44-47, 1991a.
Oganov V.S., A.S. Rakhmanov, V.E. Novikov, S.T. Zatsepin, S.S. Radionova &
C. Cann. The state of human bone tissue during space flight. Acta Astronautica
23: 129-133, 1991b.
Oganov V.S., A.I. Grigoriev, L.I. Voronin, A.S. Rakhmanov, A.V. Bakulin,
V.S. Schneider & A.D. LeBlanc. Bone mineral density in cosmonauts after
flights lasting 4.5-6 months on the Mir orbital station (abstract). [Mineral'naia
plotnost' kostnoi tkani u kosmonavtov posle poletov dlitel'nost'iu 4,5-6 mesiatsev
na orbital'noi stantsii "Mir"]. Aviakosmicheskaia i Ekologicheskaia Meditsina
26(5-6): 20-24, 1992.
Orlov O.I., V.S. Shashkov & A.I. Grigoriev. The effect of diphosphonates
on the metabolism of calcium, its regulation and the state of the bone tissue
in the modelling of the physiological effects of weightlessness (abstract).
[Vliianie difosfonatov na obmen kal'tsiia, ego reguliatsiiu i sostoianie kostnoi
tkani pri modelirovanii fiziologicheskikh effektov nevesomosti]. Eksperimentalnaia
i Klinicheskaia Farmakologiia 55(5): 61-65, 1992.
Pandolf K.B., L.A. Stroschein, R.R. Gonzalez & M.N. Sawka. Predicting
human heat strain and performance with application to space operations. Aviat.
Space Environ. Med. 66: 364-368, 1995.
Prentice A., T.J. Parsons & T.J. Cole. Uncritical use of bone mineral
density in absorptiometry may lead to size-related artifacts in the identification
of bone mineral determinants. Am. J. Clin. Nutr. 60: 837-42, 1994.
Prisk G.K., H.J.B. Guy, A.R. Elliot, R.A. Deutschmann III & J.B. West.
Pulmonary diffusing capacity, capillary blood volume, and cardiac output during
sustained microgravity. J. Appl. Physiol. 75(1): 15-26, 1993.
Rabin R., S.L. Gardon, R.W. Lymn, P.W. Todd, M-A.B. Frey & F.M. Sulzman.
Effects of spaceflight on the muskuloskeletal system: NIH and NASA future directions.
FASEB J. 7(5): 396-398, 1993.
Rafolt D. & E. Gallasch. Body fixed ankle dynanometer for isometric tests
in space flights. Biomed. Technik 41(4): 91-97, 1996.
Rambaut P.C. & A.W. Goode. Skeletal changes during space flight. Lancet
8463: 1050-1052, 1985.
Ray E.K. Introduction: are ageing and space effects similar? Exp. Gerontol.
26(2-3): 123-129, 1991.
Roy R.R., K.M. Baldwin & V.R. Edgerton. The plasticity of skeletal muscle:
effects of neuromuscular activity. Exerc. Sports Sci. Rev. 19: 269-312,
1991.
Rozendal R.H., P.A.J.B.M. Huijing, Y.F. Heerkens & R.D. Woittiez. Inleiding
in de kinesiologie van de mens. Educaboek B.V., Culemborg, The Netherlands:
199-272, 1990.
Sawin, C.F., J.A. Rummel & E.L. Michel. Instrumental personal exercise
during long-duration spaceflights. Aviat. Space Environ. Med. 46(4):
394-400, 1975.
Schneider V., V. Oganov, A. LeBlanc, A. Rakhmanov, A. Bakulin, A. Grigoriev
& L. Varonin. Space flight bone loss and change in fat and lean body mass
(abstract). J. Bone Min. Res. 7(Suppl.1): S122, 1992.
Schoutens A., E. Laurent & J.R. Poortmans. Effects of inactivity and exercise
on bone. Sports Med. 7: 71-81, 1989.
Schraeder P.L., C.M. Lathers & J.B. Charles. The spectrum of syncope.
J. Clin. Pharmacol. 34(5): 454-459, 1994.
Schultheis L. The mechanical control system of bone in weightless spaceflight
and in aging. Exp. Gerontol. 26(2-3): 203-14, 1991.
Schwandt D.F., R.T. Whalen, D.E. Watenpaugh, S.E. Parazynski & A.R. Hargens.
Development of exercise devices to minimize musculoskeletal and cardiovascular
deconditioning in microgravity. Physiol. 34(1Suppl.): S189-S190, 1991.
Shvartz E. Endurance fitness and orthostatic tolerance. Aviat. Space Environ.
Med. 67(10): 935-939, 1996.
Siconolfi, S.F. & S.L. Lemoine. Graded exercise testing for spaceflight.
Aviat. Space Environ. Med. 66: 435-439, 1995.
Siconolfi S.F., J.B. Charles, A.D. Moore & L.H. Barrows. Comparing the
effects of two inflight aerobic exercise protocols on standing heart rates and
Vo2-peak before and after space flight. J. Clin. Pharmacol. 34(6):
590-596, 1994.
Snow-Harter C. & R. Marcus. Exercise, bone mineral density, and osteoporosis.
Exerc. Sport Sci. Rev. 19:351-388, 1991.
Snow-Harter C., R. Whalen, K. Myburgh, S. Arnaud & R. Marcus. Bone mineral
density, muscle strength, and recreational exercise in men. J. Bone Min.
Res. 7(11): 1291-1296, 1992.
Srinivasan R.S., K.E. Simanonok & J.B. Charles. Computer simulation analyses
of the effects of countermeasures for reentry orthostatic intolerance. Physiol.
35(1Suppl.): S165-S168, 1992.
Stampi C. Sleep and circadian rhytms in space. J. Clin. Pharmacol 34(5):
518-534, 1994.
Stein T.P. & T. Gaprindashvili. Spaceflight and protein metabolism, with
special reference to humans. Am. J. Clin. Nutr. 60: 806S-819S, 1994.
Stein T.P. & M.D. Schluter. Excretion of IL-6 by astronauts during spaceflight.
Am. J. Physiol. 266(3Pt.1): E448-E452, 1994.
Stroganova L.B. & G. Leonid. Manned expedition to Mars: concepts &
problems. Acta Astronautica 23: 279-287, 1991.
Stupakov G.P. Biomechanical characteristics of bone structure changes following
real and simulated weightlessness. Physiol. 31(1Suppl.): S4-S7, 1988.
Stupakov G.P., Y.V. Mazurin, V.S. Kazeikin, Y.B. Moiseyev & V.V. Kaliakin.
Destructive and adaptive processes in human vertebral column under altered gravitational
potential. Physiol. 33(1Suppl.): S4-S7, 1990.
Sulzman F.M. NASA plans and opportunities. Exp. Gerontol. 26(2-3):
131-133, 1991.
Swezey R.L. Exercise for osteoporosis: Is walking enough? The case for site
specificity and resistive exercise. Spine 21(23): 2809-2813, 1996.
Tallarida G., G. Peruzzi, F. Castruzzi, G. Raimondi, J.M. Legramante, S. Cassarino,
F. Jellamo & P. Di Nardo. Dynamic and static exercises in the countermeasure
programmes for musculo-skeletal and cardiovascular deconditioning in space.
Physiol. 34 (1Suppl.): S114-S117, 1991.
Taylor G.F. Space station Freedom life sciences activities. J. Clin. Pharmacol.
34(6): 703-708, 1994.
Taylor G.R. Overview of spaceflight immunology studies. J. Leukoc. Biol.
54(3): 179-188, 1993.
Tesch P.A., P. Buchanan & G.A. Dudley. An approach to counteracting long-term
microgravity-induced muscle atrophy. Physiol. 33 (1Suppl.): S77-S79,
1990.
Tilton F.E., J.J.C. Degioanni & V.S. Schneider. Long-term follow-up of
Skylab bone demineralization. Aviat. Space Environ. Med. 51(11): 1209-1213,
1980.
Tipton C.M. Preface to weightlessness in the 1980s. Med. Sci. Sports Exerc.
15(5): 408-409, 1983a.
Tipton C.M. Considerations for exercise prescriptions in future space flights.
Med. Sci. Sports Exerc. 15(5): 441-444, 1983b.
Tipton C.M. & A.R. Hargens. Physiological adaptations and countermeasures
associated with long-duration spaceflights. Med. Sci. Sports Exerc. 28(8):
974-976, 1996.
Tipton C.M., J.E. Greenleaf & C.G.R. Jackson. Neuroendocrine and immunesystem
responses with spaceflights. Med. Sci. Sports Exerc. 28(8): 988-998,
1996.
Tischler M.E., E.J. Henriksen, K.A. Munoz, C.S. Stump, C.R. Woodman &
C.R. Kirby. Spaceflight on STS-48 and earth-based unweighting produce similar
effects on skeletal muscle of young rats. J. Appl. Physiol. 74(5): 2161-2165,
1993.
Tokarev I.N. & A.P. Andreeva. Pathogenetic mechanisms of the so-called
astronauts' anemia (abstract). [Mekhanizmy patogeneza tak nazyvaemoi anemii
astronavtov]. Gematol. Transfuziol. 39(4): 17-21, 1994.
Uebelhart D., B. Demiaux-Domenech, M. Roth & A. Chantraine. Bone metabolism
in spinal cord injured individuals and in others who have prolonged immobilisation.
A review. Paraplegia 33(11): 669-673, 1995.
Vernikos J., B. Pharm, D.A. Ludwig, A.C. Ertl, C.E. Wade, L. Keil & D.
OHara. Effect of standing or walking on physiological changes induced by head
down bed rest: implications for spaceflight. Aviat. Space Environ. Med. 67(11):
1069-1079, 1996.
Vico L. & C. Alexandre. Microgravity and bone adaptation at the tissue
level. J. Bone Min. Res. 7(Suppl.2): S445-S447, 1992.
Vorobyov E.I., O.G. Gazenko, A.M. Genin & A.D. Egorov. Medical results
of Salyut-6 manned space flights. Aviat. Space Environ. Med. 54(12Suppl.1):
S31-S40, 1983.
Welten D.C., H.C.G. Kemper, G.B. Post, W. van Mechelen, J. Twisk, P. Lips
& G.J. Theule. Weight-bearing activity during youth is a more important
factor for peak bone mass than calcium intake. J. Bone Min. Res. 9(7):
1089-1096, 1994.
Whalen R., J. Quintana & J. Emery. A method for continuous monitoring
of the ground reaction force during daily activity. Physiol. 36(1Suppl.):
S139-140, 1993.
Whittle M.W. Caloric and exercise requirements of space flight: biostereometric
results from Skylab. Aviat. Space Environ. Med. 50(2): 163-167, 1979.
Wichmann H.A. & S.I. Donaldson. Remote ergonomic research in space: spacelab
findings and a proposal. Aviat. Space Environ. Med. 67(2): 171-175, 1996.
Wickmann L.A. & B. Luna. Locomotion while load-carrying in reduced gravities.
Aviat. Space Environ. Med. 67(10): 940-946, 1996.
Wronski T.J. & E.R. Morey. Alterations in calcium homeo-stasis and bone
during actual and simulated spaceflight. Med. Sci. Sports Exerc. 15(5):
410-414, 1983.
Zernicke R.F., A.C. Valas & G.J. Salem. Biomechanical response of bone
to weightlessness. Exerc. Sport Sci. Rev. 18: 167-192, 1990.
Zhou M-Y., H. Klitgaard, B. Saltin, R.R. Roy, V.R. Edgerton & P.D. Gollnick.
Myosin heavy chain isoforms of human muscle after short-term spaceflight. J.
Appl. Physiol. 78(5): 1740-1744, 1995.