BACKGROUND: Parabolic flights offer a unique platform for human experiments in short-term weightlessness. It is generally known that human organ systems react to changes of gravity. Yet, little is known about alterations of blood parameters under these conditions with special emphasis on blood rheology. OBJECTIVE: We investigated the alterations of distinct blood parameters after exposure to weightlessness. METHODS: 14 healthy volunteers underwent short-term phases of weightlessness induced by parabolic flight. At different time points (baseline, t2:1 hour after landing, and t3:24 hours after baseline), venous blood was drawn and analyzed. RESULTS: Analysis of red blood count revealed significant decreases of hemoglobin and hematocrit post flight. While total white blood counts were unaltered, differential subset analysis revealed significant decreases of eosinophil granulocytes and monocytes. Cortisole levels were unchanged and lacked physiologic circadian decrease. Parameters of renal function were found significantly improved (GFR (ml/min/1,73m2): Baseline: 105 [89;109], t2:117 [98;125], t3:110 [102;119]; p = 0.0013. In the sense of mild myocytolysis, levels of myoglobin were significantly elevated post-flight with fast recovery to baseline levels. CONCLUSIONS: In the current analysis, significant alterations of blood parameters after exposure to weightlessness could be detected. These results contribute to the understanding of physiologic adaptations of the human body to weightlessness.
BACKGROUND: Parabolic flights offer a unique platform for human experiments in short-term weightlessness. It is generally known that human organ systems react to changes of gravity. Yet, little is known about alterations of blood parameters under these conditions with special emphasis on blood rheology. OBJECTIVE: We investigated the alterations of distinct blood parameters after exposure to weightlessness. METHODS: 14 healthy volunteers underwent short-term phases of weightlessness induced by parabolic flight. At different time points (baseline, t2:1 hour after landing, and t3:24 hours after baseline), venous blood was drawn and analyzed. RESULTS: Analysis of red blood count revealed significant decreases of hemoglobin and hematocrit post flight. While total white blood counts were unaltered, differential subset analysis revealed significant decreases of eosinophil granulocytes and monocytes. Cortisole levels were unchanged and lacked physiologic circadian decrease. Parameters of renal function were found significantly improved (GFR (ml/min/1,73m2): Baseline: 105 [89;109], t2:117 [98;125], t3:110 [102;119]; p = 0.0013. In the sense of mild myocytolysis, levels of myoglobin were significantly elevated post-flight with fast recovery to baseline levels. CONCLUSIONS: In the current analysis, significant alterations of blood parameters after exposure to weightlessness could be detected. These results contribute to the understanding of physiologic adaptations of the human body to weightlessness.
Authors: Nana-Yaw Bimpong-Buta; Johanna M Muessig; Thorben Knost; Maryna Masyuk; Stephan Binneboessel; Amir M Nia; Malte Kelm; Christian Jung Journal: Front Physiol Date: 2020-08-13 Impact factor: 4.566
Authors: Peter Jirak; Bernhard Wernly; Michael Lichtenauer; Vera Paar; Marcus Franz; Thorben Knost; Thaer Abusamrah; Malte Kelm; Johanna M Muessig; Nana-Yaw Bimpong-Buta; Christian Jung Journal: Int J Mol Sci Date: 2020-05-14 Impact factor: 5.923