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The Physiologist
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February 1, 1990
Toward an univocous interpretation of cardiovascular biomechanics in hyper and microgravity
P Quandieu, C C Tran, P Liebaert, et al.
The Physiologist
|
February 1, 1990
Effects of high sustained hypergravity on plasma catecholamines
P Liscia, C Drogou, P Quandieu, et al.
Travaux Scientifiques Des Chercheurs Du Service De Sante Des Armees Durant L'Annee
|
September 7, 2001
[Effect of upright tilt on venous hemodynamics in rat after three-week tail suspension]
F Louisy, C C Tran, G Resch, et al.
Aviation, Space, and Environmental Medicine
|
December 1, 1996
G-induced myocardium functional alterations are not related to structural changes in rat heart
C C Tran, J Stephane, B Serrurier, et al.
Journal of Gravitational Physiology : a Journal of the International Society for Gravitational Physiology
|
September 7, 2001
Venous tone and repeated +Gz accelerations
C C Tran, F Louisy, G Resch, et al.
Journal of Gravitational Physiology : a Journal of the International Society for Gravitational Physiology
|
September 7, 2001
The venous tone is not altered after three-week tail suspension in rats
F Louisy, C C Tran, G Resch, et al.
Aviation, Space, and Environmental Medicine
|
February 1, 1996
Bioenergetic effects of repeated +Gz acceleration on rat heart: a 31P-NMR study on isolated hearts
C C Tran, J Aussedat, A Ray, et al.
The Physiologist
|
February 1, 1990
Study of aortic and carotid blood flow by pulsed Doppler with implantable microprobes in hypergravity
O Langeron, C C Tran, F Paillard, et al.
The Physiologist
|
February 1, 1990
31P-NMR spectroscopy studies of myocardium submitted to hypergravitation
M J Malliavin, C C Tran, J Aussedat, et al.
The Physiologist
|
February 1, 1991
Effects of + Gz accelerations on the mechanical behavior of rat myocardium observed in isolated perfused heart
C C Tran, M J Malliavin, J Aussedat, et al.
Page
of 2
Search research articles
Search
Showing results (1-10 of 20) with videos related to
Sort By:
Page
of 2
The Physiologist
|
February 1, 1990
Toward an univocous interpretation of cardiovascular biomechanics in hyper and microgravity
P Quandieu, C C Tran, P Liebaert, et al.
The Physiologist
|
February 1, 1990
Effects of high sustained hypergravity on plasma catecholamines
P Liscia, C Drogou, P Quandieu, et al.
Travaux Scientifiques Des Chercheurs Du Service De Sante Des Armees Durant L'Annee
|
September 7, 2001
[Effect of upright tilt on venous hemodynamics in rat after three-week tail suspension]
F Louisy, C C Tran, G Resch, et al.
Aviation, Space, and Environmental Medicine
|
December 1, 1996
G-induced myocardium functional alterations are not related to structural changes in rat heart
C C Tran, J Stephane, B Serrurier, et al.
Journal of Gravitational Physiology : a Journal of the International Society for Gravitational Physiology
|
September 7, 2001
Venous tone and repeated +Gz accelerations
C C Tran, F Louisy, G Resch, et al.
Journal of Gravitational Physiology : a Journal of the International Society for Gravitational Physiology
|
September 7, 2001
The venous tone is not altered after three-week tail suspension in rats
F Louisy, C C Tran, G Resch, et al.
Aviation, Space, and Environmental Medicine
|
February 1, 1996
Bioenergetic effects of repeated +Gz acceleration on rat heart: a 31P-NMR study on isolated hearts
C C Tran, J Aussedat, A Ray, et al.
The Physiologist
|
February 1, 1990
Study of aortic and carotid blood flow by pulsed Doppler with implantable microprobes in hypergravity
O Langeron, C C Tran, F Paillard, et al.
The Physiologist
|
February 1, 1990
31P-NMR spectroscopy studies of myocardium submitted to hypergravitation
M J Malliavin, C C Tran, J Aussedat, et al.
The Physiologist
|
February 1, 1991
Effects of + Gz accelerations on the mechanical behavior of rat myocardium observed in isolated perfused heart
C C Tran, M J Malliavin, J Aussedat, et al.
Page
of 2