Blood Gases, Hematology, and Renal Blood Flow During Prolonged Mountain Sojourns at 3500 and 5800 m.
Authors: Singh, M. V.; Salhan, A. K.; Rawal, S. B.; Tyagi, A. K.; Kumar, N.; Verma, S. S.; Selvamurthy, W.
Source: Aviation, Space, and Environmental Medicine, Volume 74, Number 5, May 2003 , pp. 533-536(4)
Publisher: Aerospace Medical Association
Abstract:
Singh MV, Salhan AK, Rawal SB, Tyagi AK, Kumar N, Verma SS, Selvamurthy W. Blood gases, hematology, and renal blood flow during prolonged mountain sojourns at 3500 and 5800 m. Aviat Space Environ Med 2003; 74:533-536. Background: This study mainly focused on renal blood flow, hematological parameters, blood gases, and blood pH, which are affected on exposure to moderate (3500 m) and extreme altitudes (5800 m) in sea level residents. Hypothesis: Acute and prolonged exposure to high or extreme altitude may cause pathophysiological changes in kidney and renal plasma/blood flow, leading to retention of fluids in the tissues. Combined with the decreased availability of oxygen to the tissues, these may be responsible for high altitude maladies. Method: Fifteen male sea level (SL) volunteers, 22-25 yr old, were studied for blood gases, blood viscosity, hematocrit, hemoglobin concentration, and effective renal blood/plasma flow at Delhi (260 m), 3500 m (60 d stay), 5800 m (70 d stay), and 7 d after return to SL. Results: Compared with SL, a significant increase from 7.34 to 7.43 (p < 0.01) in blood pH was observed at 3500 m that remained significantly increased at 5800 m. PO2 was about 39% less at 5800 m than at SL. PCO2 reduced significantly from 42.07 to 28.05 mm Hg on return from 5800 m to SL. The blood viscosity increased significantly (38%) at 5800 m and decreased significantly by 38% (p < 0.01) after return to SL. The effective renal plasma flow reduced significantly (p < 0.01) from 615.6 at SL to 381.5 ml · min−1 · 1.73 m−2 at 5800 m. Conclusion: The study suggests a crucial role of renal function in the acclimatization process; renal function also appears to be one factor by which the body protects itself against severe hypoxia.Keywords: humans; prolonged stay; extreme altitude; effective renal blood flow; effective renal plasma flow
Document Type: Research article
Publication date: 2003-05-01
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- By this author: Singh, M. V. ; Salhan, A. K. ; Rawal, S. B. ; Tyagi, A. K. ; Kumar, N. ; Verma, S. S. ; Selvamurthy, W.

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