|
|
|
|
Antonutto G, Capelli C, Girardis M, Zamparo P, di Prampero PE. Effects of microgravity on maximal power of lower limbs during very short efforts in humans. J Appl Physiol. 1999 Jan;86(1):85-92. Arbeille P, Achaibou F, Fomina G, Pottier JM, Porcher M. Regional blood flow in microgravity: adaptation and deconditioning. Med Sci Sports Exerc. 1996 Oct;28(10 Suppl):S70-9. Baldwin KM, White TP, Arnaud SB, Edgerton VR, Kraemer WJ, Kram R, Raab-Cullen D, Snow CM. Musculoskeletal adaptations to weightlessness and development of effective countermeasures. Med Sci Sports Exerc. 1996 Oct;28(10):1247-53. Baldwin KM. Effect of spaceflight on the functional, biochemical, and metabolic properties of skeletal muscle. Med Sci Sports Exerc. 1996 Aug;28(8):983-7. Convertino VA. Clinical aspects of the control of plasma volume at microgravity and during return to one gravity. Med Sci Sports Exerc. 1996 Oct;28(10 Suppl):S45-52. Convertino VA. Exercise as a countermeasure for physiological adaptation to prolonged spaceflight. Med Sci Sports Exerc. 1996 Aug;28(8):999-1014. Desplanches D. Structural and functional adaptations of skeletal muscle to weightlessness. Int J Sports Med. 1997 Oct;18 Suppl 4:S259-64. Engelke KA, Doerr DF, Crandall CG, Convertino VA. Application of acute maximal exercise to protect orthostatic tolerance after simulated microgravity. Am J Physiol. 1996 Oct;271(4 Pt 2):R837-47. Hargens AR, Watenpaugh DE. Cardiovascular adaptation to spaceflight. Med Sci Sports Exerc. 1996 Aug;28(8):977-82. Hargens AR. Recent bed rest results and countermeasure development at NASA. Acta Physiol Scand Suppl. 1994;616:103-14. Kreitenberg A, Baldwin KM, Bagian JP, Cotten S, Witmer J, Caiozzo VJ. The "Space Cycle" Self Powered Human Centrifuge: a proposed countermeasure for prolonged human spaceflight. Aviat Space Environ Med. 1998 Jan;69(1):66-72. Lane HW. Energy requirements for space flight. J Nutr. 1992 Jan;122(1):13-8. Levine BD, Lane LD, Watenpaugh DE, Gaffney FA, Buckey JC, Blomqvist CG. Maximal exercise performance after adaptation to microgravity. J Appl Physiol. 1996 Aug;81(2):686-94. Pavy-Le Traon A, Allevard AM, Fortrat JO, Vasseur P, Gauquelin G, Guell A, Bes A, Gharib C. Cardiovascular and hormonal changes induced by a simulation of a lunar mission. Aviat Space Environ Med. 1997 Sep;68(9 Pt 1):829-37. Prou E, Marini JF. Muscle research in space--increased muscle susceptibility to exercise-induced damage after a prolonged bedrest. Int J Sports Med. 1997 Oct;18 Suppl 4:S317-20. Riley DA. Is skeletal muscle ready for long-term spaceflight and return to gravity? Adv Space Biol Med. 1999;7:31-48. Stein TP, Leskiw MJ, Schluter MD, Hoyt RW, Lane HW, Gretebeck RE, LeBlanc AD. Energy expenditure and balance during spaceflight on the space shuttle. Am J Physiol. 1999 Jun;276(6 Pt 2):R1739-48. Strollo F. Hormonal changes in humans during spaceflight. Adv Space Biol Med. 1999;7:99-129. Tipton CM, Hargens A. Physiological adaptations and countermeasures associated with long-duration spaceflights. Med Sci Sports Exerc. 1996 Aug;28(8):974-6. Verbanck S, Larsson H, Linnarsson D, Prisk GK, West JB, Paiva M. Pulmonary tissue volume, cardiac output, and diffusing capacity in sustained microgravity. J Appl Physiol. 1997 Sep;83(3):810-6. Widrick JJ, Knuth ST, Norenberg KM, Romatowski JG, Bain JL, Riley DA, Karhanek M, Trappe SW, Trappe TA, Costill DL, Fitts RH. Effect of a 17 day spaceflight on contractile properties of human soleus muscle fibres. J Physiol (Lond). 1999 May 1;516 ( Pt 3):915-30. Yates BJ, Kerman IA. Post-spaceflight orthostatic intolerance: possible relationship to microgravity-induced plasticity in the vestibular system. Brain Res Brain Res Rev. 1998 Nov;28(1-2):73-82. |