Fluid shifts are main drivers for microgravity simulation-induced immune-physiological changes: findings from the VIVALDI studies

Dominique Moser; Marie-Pierre Bareille; Angelique van Ombergen; Marion Hoerl; Federico D´Amico; Matthias Feuerecker; Christopher Dächert; Sandra Matzel; Adrien Robin; N. Navasiolava; M.-A. Custaud; A. Choukér; A. Robin; M.-A. Custaud; N. Navasiolava; C. Laurens; A. Bergouignan; L. Vico; A. Chopard; A. Pav-Le Traon; A. Choukér; D. Moser; D. A. Green; Michael Tipton; P. Denise; H. Normand; S. Blanc; E. Rosnet

doi:10.1038/s41526-025-00555-z

Fluid shifts are main drivers for microgravity simulation-induced immune-physiological changes: findings from the VIVALDI studies

Dominique Moser, Marie-Pierre Bareille, Angelique van Ombergen, Marion Hoerl, Federico D´Amico, Matthias Feuerecker, Christopher Dächert, Sandra Matzel, Adrien Robin, N. Navasiolava, M.-A. Custaud, A. Choukér, A. Robin, M.-A. Custaud, N. Navasiolava, C. Laurens, A. Bergouignan, L. Vico, A. Chopard, A. Pav-Le TraonA. Choukér, D. Moser, D. A. Green, Michael Tipton, P. Denise, H. Normand, S. Blanc, E. Rosnet

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Abstract

Microgravity strongly affects human physiology during spaceflight. Biological sex has not yet been sufficiently considered as a variable for spaceflight deconditioning. The VivalDI studies investigated physiological systems affected by 5-days dry immersion (DI) in females and males, with a focus on immune changes in this report. In both sexes proportions of peripheral granulocytes and NK cells were elevated during DI and T-cell numbers were reduced. Leukocyte activation and cytokine levels were moderately affected. Females showed a higher Torque-Teno-virus shedding at the end of DI. Noradrenaline concentrations increased during the study with sex-specific patterns. Hemodynamics suggest that immunological changes were caused by DI-induced fluid shifts. Moreover, male study participants’ patterns were compared to a historical data set from a 5-days head-down-tilt bed rest (HDT-BR) study. Changes in leukocyte proportions and body fluid indicators were stronger in DI versus HDT-BR. These analyses indicate that fluid shifts primarily drive intervention-related immune-physiological differences, independent of biological sex. ClinicalTrials.gov, TRN: NCT05043974 and NCT05493176.

Original language	English
Article number	15
Number of pages	14
Journal	npj Microgravity
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41526-025-00555-z
Publication status	Published - 16 Feb 2026

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Moser, D., Bareille, M.-P., Ombergen, A. V., Hoerl, M., D´Amico, F., Feuerecker, M., Dächert, C., Matzel, S., Robin, A., Navasiolava, N., Custaud, M.-A., Choukér, A., Robin, A., Custaud, M.-A., Navasiolava, N., Laurens, C., Bergouignan, A., Vico, L., Chopard, A., ... Rosnet, E. (2026). Fluid shifts are main drivers for microgravity simulation-induced immune-physiological changes: findings from the VIVALDI studies. npj Microgravity, 12(1), Article 15. https://doi.org/10.1038/s41526-025-00555-z

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title = "Fluid shifts are main drivers for microgravity simulation-induced immune-physiological changes: findings from the VIVALDI studies",

abstract = "Microgravity strongly affects human physiology during spaceflight. Biological sex has not yet been sufficiently considered as a variable for spaceflight deconditioning. The VivalDI studies investigated physiological systems affected by 5-days dry immersion (DI) in females and males, with a focus on immune changes in this report. In both sexes proportions of peripheral granulocytes and NK cells were elevated during DI and T-cell numbers were reduced. Leukocyte activation and cytokine levels were moderately affected. Females showed a higher Torque-Teno-virus shedding at the end of DI. Noradrenaline concentrations increased during the study with sex-specific patterns. Hemodynamics suggest that immunological changes were caused by DI-induced fluid shifts. Moreover, male study participants{\textquoteright} patterns were compared to a historical data set from a 5-days head-down-tilt bed rest (HDT-BR) study. Changes in leukocyte proportions and body fluid indicators were stronger in DI versus HDT-BR. These analyses indicate that fluid shifts primarily drive intervention-related immune-physiological differences, independent of biological sex. ClinicalTrials.gov, TRN: NCT05043974 and NCT05493176.",

author = "Dominique Moser and Marie-Pierre Bareille and Ombergen, \{Angelique van\} and Marion Hoerl and Federico D´Amico and Matthias Feuerecker and Christopher D{\"a}chert and Sandra Matzel and Adrien Robin and N. Navasiolava and M.-A. Custaud and A. Chouk{\'e}r and A. Robin and M.-A. Custaud and N. Navasiolava and C. Laurens and A. Bergouignan and L. Vico and A. Chopard and Traon, \{A. Pav-Le\} and A. Chouk{\'e}r and D. Moser and Green, \{D. A.\} and Michael Tipton and P. Denise and H. Normand and S. Blanc and E. Rosnet",

year = "2026",

month = feb,

day = "16",

doi = "10.1038/s41526-025-00555-z",

language = "English",

volume = "12",

journal = "npj Microgravity",

issn = "2373-8065",

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Moser, D, Bareille, M-P, Ombergen, AV, Hoerl, M, D´Amico, F, Feuerecker, M, Dächert, C, Matzel, S, Robin, A, Navasiolava, N, Custaud, M-A, Choukér, A, Robin, A, Custaud, M-A, Navasiolava, N, Laurens, C, Bergouignan, A, Vico, L, Chopard, A, Traon, AP-L, Choukér, A, Moser, D, Green, DA, Tipton, M, Denise, P, Normand, H, Blanc, S & Rosnet, E 2026, 'Fluid shifts are main drivers for microgravity simulation-induced immune-physiological changes: findings from the VIVALDI studies', npj Microgravity, vol. 12, no. 1, 15. https://doi.org/10.1038/s41526-025-00555-z

TY - JOUR

T1 - Fluid shifts are main drivers for microgravity simulation-induced immune-physiological changes: findings from the VIVALDI studies

AU - Moser, Dominique

AU - Bareille, Marie-Pierre

AU - Ombergen, Angelique van

AU - Hoerl, Marion

AU - D´Amico, Federico

AU - Feuerecker, Matthias

AU - Dächert, Christopher

AU - Matzel, Sandra

AU - Robin, Adrien

AU - Navasiolava, N.

AU - Custaud, M.-A.

AU - Choukér, A.

AU - Robin, A.

AU - Custaud, M.-A.

AU - Navasiolava, N.

AU - Laurens, C.

AU - Bergouignan, A.

AU - Vico, L.

AU - Chopard, A.

AU - Traon, A. Pav-Le

AU - Choukér, A.

AU - Moser, D.

AU - Green, D. A.

AU - Tipton, Michael

AU - Denise, P.

AU - Normand, H.

AU - Blanc, S.

AU - Rosnet, E.

PY - 2026/2/16

Y1 - 2026/2/16

N2 - Microgravity strongly affects human physiology during spaceflight. Biological sex has not yet been sufficiently considered as a variable for spaceflight deconditioning. The VivalDI studies investigated physiological systems affected by 5-days dry immersion (DI) in females and males, with a focus on immune changes in this report. In both sexes proportions of peripheral granulocytes and NK cells were elevated during DI and T-cell numbers were reduced. Leukocyte activation and cytokine levels were moderately affected. Females showed a higher Torque-Teno-virus shedding at the end of DI. Noradrenaline concentrations increased during the study with sex-specific patterns. Hemodynamics suggest that immunological changes were caused by DI-induced fluid shifts. Moreover, male study participants’ patterns were compared to a historical data set from a 5-days head-down-tilt bed rest (HDT-BR) study. Changes in leukocyte proportions and body fluid indicators were stronger in DI versus HDT-BR. These analyses indicate that fluid shifts primarily drive intervention-related immune-physiological differences, independent of biological sex. ClinicalTrials.gov, TRN: NCT05043974 and NCT05493176.

AB - Microgravity strongly affects human physiology during spaceflight. Biological sex has not yet been sufficiently considered as a variable for spaceflight deconditioning. The VivalDI studies investigated physiological systems affected by 5-days dry immersion (DI) in females and males, with a focus on immune changes in this report. In both sexes proportions of peripheral granulocytes and NK cells were elevated during DI and T-cell numbers were reduced. Leukocyte activation and cytokine levels were moderately affected. Females showed a higher Torque-Teno-virus shedding at the end of DI. Noradrenaline concentrations increased during the study with sex-specific patterns. Hemodynamics suggest that immunological changes were caused by DI-induced fluid shifts. Moreover, male study participants’ patterns were compared to a historical data set from a 5-days head-down-tilt bed rest (HDT-BR) study. Changes in leukocyte proportions and body fluid indicators were stronger in DI versus HDT-BR. These analyses indicate that fluid shifts primarily drive intervention-related immune-physiological differences, independent of biological sex. ClinicalTrials.gov, TRN: NCT05043974 and NCT05493176.

U2 - 10.1038/s41526-025-00555-z

DO - 10.1038/s41526-025-00555-z

M3 - Article

SN - 2373-8065

VL - 12

JO - npj Microgravity

JF - npj Microgravity

IS - 1

M1 - 15

ER -

Fluid shifts are main drivers for microgravity simulation-induced immune-physiological changes: findings from the VIVALDI studies

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