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Reduced natriuresis during weightlessness

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Summary

The kidney response to weightlessness was measured in one volunteer during a 1-week space mission. Shortly after entering microgravity and later during the mission, consecutive urine sampling periods were monitored, covering in total about 50% of the inflight time. Preflight references were a sequence of ground-based experiments, which evaluated body fluid metabolism with different degrees of standardization. Additional variables, such as circadian rhythms and cortisol-associated stress, were also monitored. In contrast to current hypotheses, the volunteer showed a pronounced reduction in natriuresis and diuresis during the entire space flight, despite a considerable weight loss. For the first time, the urinary excretion of the renal natriuretic peptide urodilatin was also measured. Both, during the preflight experiments and during weightlessness, close correlations between urodilatin excretion and sodium excretion were observed. However, the correlation between natriuresis and urodilatin excretion was considerably altered during weightlessness. We conclude that the loss of body weight during space flight is not related to an increased renal fluid loss and that urodilatin might counteract the decrease in renal excretion observed in weightlessness.

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References

  1. Baisch FJ, Beck L (1993) Changes in body fluid distribution in weightlessness and lower body negative pressure treatment. Clin Investig 71:690–699

    Google Scholar 

  2. Berry CA, Coons DO, Catterson AD, Kelly GF (1966) Man's response to long-duration flight in the Gemini spacecraft. Gemini midprogram conference including experiment results. (NASA SP-121) US Govt Printing Office for NASA, Washington, DC, pp 235–261

    Google Scholar 

  3. Dietlein LF, Harris E (1966) Experiment M-5, bioassays of body fluids. Gemini midprogram conference including experiment results. (NASA SP-121) US Govt Printing Office for NASA, Washington, DC, pp 403–406

    Google Scholar 

  4. Dressendörfer RA, Kirschbaum C, Rohde W, Stahl F, Strasburger CJ (1992) Synthesis of a cortisol-biotin conjugate and evaluation as a tracer in an immunoassay for salivary cortisol measurement. J Steroid Biochem Mol Biol 43:683–692

    Google Scholar 

  5. Drummer C, Gerzer R, Heer M, Molz B, Bic P, Schlossberger M, Stadaeger C, Röcker L, Strollo F, Heyduck B, Bauer K, Warberg J, Baisch F, Christensen NJ, König A, Norsk P (1992) Effects of an acute saline infusion on fluid and electrolyte metabolism in humans. Am J Physiol 262: F744-F754

    Google Scholar 

  6. Drummer C, Fiedler F, Bub A, Kleefeld D, Dimitriades E, Gerzer R, Forssmann WG (1993) Development and application of a urodilatin (CDD/ANP-95-126)-specific radioimmunoassay. Eur J Physiol (in press)

  7. Essfeld D, Baum K, Hoffmann U, Stegemann J (1993) Effects of microgravity on interstitial muscle receptors affecting heart rate and blood pressure during static exercise. Clin Investig 71:704–709

    Google Scholar 

  8. Gauer OH, Henry JP, Sicker HO (1956) Changes in central venous pressure after moderate hemorrhage and transfusion in man. Circ Res 4:79–84

    Google Scholar 

  9. Goetz KL (1991) Renal natriuretic peptide (urodilatin?) and atriopeptin: evolving concepts. Am J Physiol 261: F921-F932

    Google Scholar 

  10. Graybiel A, Wood CD, Miller EF, Cramer DB (1968) Diagnostic criteria for grading the severity of acute motion sickness. Aerosp Med 39:453–455

    Google Scholar 

  11. Grigor'yev AI, Kozyrevskaya GI, Dorokhova BR, Lebedev VI, Morukov BV (1977) Distinctions of fluid and electrolyte metabolism and renal function in crew members of the first Salyut-4 expedition. Kosm Biol Aviakosm Med 5:41–47

    Google Scholar 

  12. Gundel A, Nalishiti V, Reucher E, Vejvoda M, Zulley J (1993) Sleep and circadian rhythm during a short stay in weightlessness. Clin Investig 71:718–724

    Google Scholar 

  13. Heim JM, Gottmann K, Weil J, Haute MC, Gerzer R (1988) Is cyclic GMP a clinically useful marker for ANF action? Z Kardiol 77[Suppl 2]: 41–46

    Google Scholar 

  14. Kirsch KA, Baartz FJ, Gunga HC, Röcker L (1993) Fluid shifts into and out of the superficial tissues under micro-g and under clinical conditions. Clin Investig 71:687–689

    Google Scholar 

  15. Kirschbaum C (1991) Cortisolmessung im Speichel: eine Methode der Biologischen Psychologie. Huber, Berne Göttingen Toronto

    Google Scholar 

  16. Leach CS, Alexander WC, Johnson PC (1975) Endocrine, electrolyte, and fluid volume changes associated with Apollo missions. In: Johnston RS, Dietlein LF, Berry CA (eds) Biomedical results of Apollo. (NASA SP-368) US Govt Printing Office for NASA, Washington, DC, pp 163–184

    Google Scholar 

  17. Leach CS, Rambaut PC (1977) Biochemical responses of the Skylab crewmen: an overview. In: Johnston RS, Dietlein LF (eds) Biomedical results from Skylab. (NASA SP-377) US Govt Printing Office for NASA, Washington, DC, pp 204–215

    Google Scholar 

  18. Manzey D, Lorenz B, Schiewe A, Finell G, Thiele G (1993) Beyond physiological aspects of human adaptation to space: analyses of cognitive and psychomotor performance in space during a 9-day space mission. Clin Investig 71:725–731

    Google Scholar 

  19. Norsk P, Epstein M (1991) Manned space flight and the kidney. Am J Nephrol 11:81–92

    Google Scholar 

  20. Thornton WE, Hoffler GW, Rummel JA (1977) Anthropometric changes and fluid shifts. In: Johnston RS, Dietlein LF (eds) Biomedical results from Skylab. (NASA SP-377) US Govt Printing Office for NASA, Washington, DC, pp 330–338

    Google Scholar 

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Authors and Affiliations

  1. Medizinische Klinik, Klinikum Innenstadt, Universität München, München, Germany

    C. Drummer, R. A. Dressendörfer, C. J. Strasburger & R. Gerzer

  2. Institut für Flugmedizin Deutsche Forschungsanstalt für Luft- und Raumfahrt (DLR), Postfach 906058, W-5000, Köln 90, Germany

    C. Drummer, M. Heer & R. Gerzer

Authors
  1. C. Drummer
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  2. M. Heer
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  3. R. A. Dressendörfer
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  4. C. J. Strasburger
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  5. R. Gerzer
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Drummer, C., Heer, M., Dressendörfer, R.A. et al. Reduced natriuresis during weightlessness. Clin Investig 71, 678–686 (1993). https://doi.org/10.1007/BF00209720

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  • DOI: https://doi.org/10.1007/BF00209720

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