Effects of acute hypoxia on renal and endocrine function at rest and during graded exercise in hydrated subjects

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Standard

Effects of acute hypoxia on renal and endocrine function at rest and during graded exercise in hydrated subjects. / Olsen, Niels Vidiendal; Kanstrup, I L; Richalet, J P; Hansen, J M; Plazen, G; Galen, F X.

I: Journal of Applied Physiology, Bind 73, Nr. 5, 11.1992, s. 2036-43.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Olsen, NV, Kanstrup, IL, Richalet, JP, Hansen, JM, Plazen, G & Galen, FX 1992, 'Effects of acute hypoxia on renal and endocrine function at rest and during graded exercise in hydrated subjects', Journal of Applied Physiology, bind 73, nr. 5, s. 2036-43.

APA

Olsen, N. V., Kanstrup, I. L., Richalet, J. P., Hansen, J. M., Plazen, G., & Galen, F. X. (1992). Effects of acute hypoxia on renal and endocrine function at rest and during graded exercise in hydrated subjects. Journal of Applied Physiology, 73(5), 2036-43.

Vancouver

Olsen NV, Kanstrup IL, Richalet JP, Hansen JM, Plazen G, Galen FX. Effects of acute hypoxia on renal and endocrine function at rest and during graded exercise in hydrated subjects. Journal of Applied Physiology. 1992 nov.;73(5):2036-43.

Author

Olsen, Niels Vidiendal ; Kanstrup, I L ; Richalet, J P ; Hansen, J M ; Plazen, G ; Galen, F X. / Effects of acute hypoxia on renal and endocrine function at rest and during graded exercise in hydrated subjects. I: Journal of Applied Physiology. 1992 ; Bind 73, Nr. 5. s. 2036-43.

Bibtex

@article{704a58e943364c488226e03360f27117,
title = "Effects of acute hypoxia on renal and endocrine function at rest and during graded exercise in hydrated subjects",
abstract = "Renal effects of altitude hypoxia are unclear. Renal and hormonal function was investigated in eight males at rest and during graded exercise at sea level (SL) and 48 h after rapid ascent to 4,350 m (HA). HA did not change resting values of effective renal plasma flow (ERPF), glomerular filtration rate (GFR), sodium clearance (CNa), urine flow, or lithium clearance (CLi), which was used as an index of proximal tubular outflow. At rest, HA increased plasma norepinephrine concentration and decreased plasma concentrations of renin and aldosterone. Exercise decreased ERPF similarly in both environments. Normoxic exercise progressively reduced GFR, but at HA GFR only decreased during heavy exercise. This resulted in a higher filtration fraction during light and moderate hypoxic exercise. However, calculated absolute proximal reabsorption rate (GFR-CLi) at HA was higher during low-intensity exercise, and there were no significant differences between exercise-induced decreases in CLi, CNa, and urine flow at HA compared with SL. Exercise gradually increased plasma norepinephrine, but values were higher at HA during light and moderate exercise. The small changes in the renal response to low-intensity hypoxic exercise may be secondary to increased adrenosympathetic activity. However, antidiuretic and antinatriuretic effects of exercise were maintained in hypoxia and in both environments seemed to be the consequence of decreased proximal tubular outflow. The results demonstrate that renal glomerular and tubular function is well preserved in acute hypoxia despite marked hormonal changes.",
keywords = "Adult, Anoxia, Endocrine Glands, Exercise, Glomerular Filtration Rate, Humans, Iodine Radioisotopes, Iothalamic Acid, Kidney, Kidney Tubules, Proximal, Lithium, Male, Norepinephrine, Renal Circulation, Rest, Sodium",
author = "Olsen, {Niels Vidiendal} and Kanstrup, {I L} and Richalet, {J P} and Hansen, {J M} and G Plazen and Galen, {F X}",
year = "1992",
month = nov,
language = "English",
volume = "73",
pages = "2036--43",
journal = "Journal of Applied Physiology",
issn = "8750-7587",
publisher = "American Physiological Society",
number = "5",

}

RIS

TY - JOUR

T1 - Effects of acute hypoxia on renal and endocrine function at rest and during graded exercise in hydrated subjects

AU - Olsen, Niels Vidiendal

AU - Kanstrup, I L

AU - Richalet, J P

AU - Hansen, J M

AU - Plazen, G

AU - Galen, F X

PY - 1992/11

Y1 - 1992/11

N2 - Renal effects of altitude hypoxia are unclear. Renal and hormonal function was investigated in eight males at rest and during graded exercise at sea level (SL) and 48 h after rapid ascent to 4,350 m (HA). HA did not change resting values of effective renal plasma flow (ERPF), glomerular filtration rate (GFR), sodium clearance (CNa), urine flow, or lithium clearance (CLi), which was used as an index of proximal tubular outflow. At rest, HA increased plasma norepinephrine concentration and decreased plasma concentrations of renin and aldosterone. Exercise decreased ERPF similarly in both environments. Normoxic exercise progressively reduced GFR, but at HA GFR only decreased during heavy exercise. This resulted in a higher filtration fraction during light and moderate hypoxic exercise. However, calculated absolute proximal reabsorption rate (GFR-CLi) at HA was higher during low-intensity exercise, and there were no significant differences between exercise-induced decreases in CLi, CNa, and urine flow at HA compared with SL. Exercise gradually increased plasma norepinephrine, but values were higher at HA during light and moderate exercise. The small changes in the renal response to low-intensity hypoxic exercise may be secondary to increased adrenosympathetic activity. However, antidiuretic and antinatriuretic effects of exercise were maintained in hypoxia and in both environments seemed to be the consequence of decreased proximal tubular outflow. The results demonstrate that renal glomerular and tubular function is well preserved in acute hypoxia despite marked hormonal changes.

AB - Renal effects of altitude hypoxia are unclear. Renal and hormonal function was investigated in eight males at rest and during graded exercise at sea level (SL) and 48 h after rapid ascent to 4,350 m (HA). HA did not change resting values of effective renal plasma flow (ERPF), glomerular filtration rate (GFR), sodium clearance (CNa), urine flow, or lithium clearance (CLi), which was used as an index of proximal tubular outflow. At rest, HA increased plasma norepinephrine concentration and decreased plasma concentrations of renin and aldosterone. Exercise decreased ERPF similarly in both environments. Normoxic exercise progressively reduced GFR, but at HA GFR only decreased during heavy exercise. This resulted in a higher filtration fraction during light and moderate hypoxic exercise. However, calculated absolute proximal reabsorption rate (GFR-CLi) at HA was higher during low-intensity exercise, and there were no significant differences between exercise-induced decreases in CLi, CNa, and urine flow at HA compared with SL. Exercise gradually increased plasma norepinephrine, but values were higher at HA during light and moderate exercise. The small changes in the renal response to low-intensity hypoxic exercise may be secondary to increased adrenosympathetic activity. However, antidiuretic and antinatriuretic effects of exercise were maintained in hypoxia and in both environments seemed to be the consequence of decreased proximal tubular outflow. The results demonstrate that renal glomerular and tubular function is well preserved in acute hypoxia despite marked hormonal changes.

KW - Adult

KW - Anoxia

KW - Endocrine Glands

KW - Exercise

KW - Glomerular Filtration Rate

KW - Humans

KW - Iodine Radioisotopes

KW - Iothalamic Acid

KW - Kidney

KW - Kidney Tubules, Proximal

KW - Lithium

KW - Male

KW - Norepinephrine

KW - Renal Circulation

KW - Rest

KW - Sodium

M3 - Journal article

C2 - 1474083

VL - 73

SP - 2036

EP - 2043

JO - Journal of Applied Physiology

JF - Journal of Applied Physiology

SN - 8750-7587

IS - 5

ER -

ID: 47240921