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I F Vil-Vilyams

Showing results (1-10 of 8) with videos related to

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Advances in Space Research : the Official Journal of the Committee on Space Research (COSPAR)|January 1, 1981
Human adaptation to simulated gravitational fieldsE B Shulzhenko, I F Vil-Vilyams, V E Panfilov
Acta Astronautica|March 1, 1982
Human adaptation to simulated gravitational fieldsE B Shulzhenko, I F Vil-Vilyams, V E Panfilov
Life Sciences and Space Research|January 1, 1976
Deconditioning during prolonged immersion and possible countermeasuresE B Shulzhenko, I F Vil-Vilyams, M A Khudyakova, et al.
Life Sciences and Space Research|January 1, 1979
Prophylactic [correction of prophylatic] effects of intermittent acceleration against physiological deconditioning in simulated weightlessnessE B Shulzhenko, I F Vil-Vilyams, E A Aleksandrova, et al.
The Physiologist|February 1, 1991
Perspectives for the application of the Penáz's method for a non-invasive continuous blood pressure measurement in space medicineL Novák, J Penáz, A R Kotovskaya, et al.
Life Sciences and Space Research|January 1, 1977
Prevention of human deconditioning during prolonged immersion in waterE B Shulzhenko, I F Vil-Vilyams, A I Grigoryev, et al.
The Physiologist|December 1, 1985
Cardiorespiratory responses to lower body negative pressure and tilt tests after exposure to simulated weightlessnessV P Katuntsev, V E Katkov, V M Baranov, et al.
Journal of Gravitational Physiology : a Journal of the International Society for Gravitational Physiology|April 17, 2003
Muscle derived serum enzyme accumulation after +Gz acceleration test in Rhesus monkeys exposed to bed restB S Shenkman, S A Goncharova, L B Stroganova, et al.
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Advances in Space Research : the Official Journal of the Committee on Space Research (COSPAR)|January 1, 1981
Human adaptation to simulated gravitational fieldsE B Shulzhenko, I F Vil-Vilyams, V E Panfilov
Acta Astronautica|March 1, 1982
Human adaptation to simulated gravitational fieldsE B Shulzhenko, I F Vil-Vilyams, V E Panfilov
Life Sciences and Space Research|January 1, 1976
Deconditioning during prolonged immersion and possible countermeasuresE B Shulzhenko, I F Vil-Vilyams, M A Khudyakova, et al.
Life Sciences and Space Research|January 1, 1979
Prophylactic [correction of prophylatic] effects of intermittent acceleration against physiological deconditioning in simulated weightlessnessE B Shulzhenko, I F Vil-Vilyams, E A Aleksandrova, et al.
The Physiologist|February 1, 1991
Perspectives for the application of the Penáz's method for a non-invasive continuous blood pressure measurement in space medicineL Novák, J Penáz, A R Kotovskaya, et al.
Life Sciences and Space Research|January 1, 1977
Prevention of human deconditioning during prolonged immersion in waterE B Shulzhenko, I F Vil-Vilyams, A I Grigoryev, et al.
The Physiologist|December 1, 1985
Cardiorespiratory responses to lower body negative pressure and tilt tests after exposure to simulated weightlessnessV P Katuntsev, V E Katkov, V M Baranov, et al.
Journal of Gravitational Physiology : a Journal of the International Society for Gravitational Physiology|April 17, 2003
Muscle derived serum enzyme accumulation after +Gz acceleration test in Rhesus monkeys exposed to bed restB S Shenkman, S A Goncharova, L B Stroganova, et al.
Pageof 1