Scientific research aboard the International Space Station

[1]  I. Biaggioni,et al.  Orthostatic hypotension of prolonged weightlessness: clinical models. , 1992, Acta astronautica.

[2]  V V Polyakov,et al.  The alteration of human sleep and circadian rhythms during spaceflight , 1997, Journal of sleep research.

[3]  R. Wassersug,et al.  Amphibian development in the virtual absence of gravity. , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[4]  A. Berthoz,et al.  Neuronal mechanisms underlying eye-head coordination. , 1986, Progress in brain research.

[5]  H W Lane,et al.  Energy requirements for space flight. , 1992, The Journal of nutrition.

[6]  V J Caiozzo,et al.  Microgravity-induced transformations of myosin isoforms and contractile properties of skeletal muscle. , 1996, Journal of applied physiology.

[7]  R. Anken,et al.  Neuroplastic reactivity of fish induced by altered gravity conditions: a review of recent results. , 1998, Advances in space research : the official journal of the Committee on Space Research.

[8]  K. Ijiri Development of space-fertilized eggs and formation of primordial germ cells in the embryos of Medaka fish. , 1998, Advances in Space Research.

[9]  P. Moos,et al.  Cell proliferation inhibition in reduced gravity. , 1994, Experimental cell research.

[10]  R. Pietrzyk,et al.  Alterations in renal stone risk factors after space flight. , 1993, The Journal of urology.

[11]  R. Hampp,et al.  Fusion and metabolism of plant cells as affected by microgravity , 1997, Planta.

[12]  K. Ishizaki,et al.  Mutations induced in Drosophila during space flight. , 1997, Uchu Seibutsu Kagaku.

[13]  H. Vandenburgh,et al.  Space travel directly induces skeletal muscle atrophy , 1999, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[14]  L R Young,et al.  Spatial orientation in weightlessness and readaptation to earth's gravity. , 1984, Science.