We tested the hypothesis that the individual ventilatory adaptation to high altitude (HA, 5050 m) may influence renal water excretion in response to water loading. In 8 healthy humans (33 +/- 4 S.D. years) we studied, at sea level (SL) and at HA, resting ventilation (V(E)), arterial oxygen saturation (Sp(O2)), urinary output after water loading (WL, 20 mL/kg), and total body water (TBW). Ventilatory response to HA was defined as the difference in resting V(E) over SP(O2) (Delta V(E)/Delta Sp(O2)) from SL to HA. At HA, a significant increase in urinary volume after the first hour from WL (%WLt((0-60))) was observed. Significant correlations were found between Delta V(E)/Delta SP(O2) versus %WLt((0-60)) at HA and versus changes in TBW, from SL to HA. In conclusion, in healthy subjects the ventilatory response to HA influences water balance and correlates with kidney response to WL. A higher ventilatory response at HA, allowing a more efficient water renal handling, is likely to be a protective mechanisms from altitude illness. (C) 2008 Elsevier B.V. All rights reserved.
Relationship between individual ventilatory response and acute renal water excretion at high altitude / Gabriele, Valli; Daniela, Bonardi; Federica, Campigotto; Valter, Fasano; Alessandra, Gennari; Luca, Pomidori; Annalisa, Cogo; Palange, Paolo. - In: RESPIRATORY PHYSIOLOGY & NEUROBIOLOGY. - ISSN 1569-9048. - 162:2(2008), pp. 103-108. [10.1016/j.resp.2008.04.016]
Relationship between individual ventilatory response and acute renal water excretion at high altitude
PALANGE, Paolo
2008
Abstract
We tested the hypothesis that the individual ventilatory adaptation to high altitude (HA, 5050 m) may influence renal water excretion in response to water loading. In 8 healthy humans (33 +/- 4 S.D. years) we studied, at sea level (SL) and at HA, resting ventilation (V(E)), arterial oxygen saturation (Sp(O2)), urinary output after water loading (WL, 20 mL/kg), and total body water (TBW). Ventilatory response to HA was defined as the difference in resting V(E) over SP(O2) (Delta V(E)/Delta Sp(O2)) from SL to HA. At HA, a significant increase in urinary volume after the first hour from WL (%WLt((0-60))) was observed. Significant correlations were found between Delta V(E)/Delta SP(O2) versus %WLt((0-60)) at HA and versus changes in TBW, from SL to HA. In conclusion, in healthy subjects the ventilatory response to HA influences water balance and correlates with kidney response to WL. A higher ventilatory response at HA, allowing a more efficient water renal handling, is likely to be a protective mechanisms from altitude illness. (C) 2008 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
