The relationship between exercise diuresis and running load.
- VernacularTitle:疾走負荷による運動性利尿の発現
- Author:
TAKEAKI INOMOTO
;
YOSHIO SAWADA
;
KATSUTOSHI OGO
- Publication Type:Journal Article
- Keywords:
Water diuresis;
GFR;
Renal tubles;
Exercise;
Anaerobic metabolism
- From:Japanese Journal of Physical Fitness and Sports Medicine
1985;34(5):247-258
- CountryJapan
- Language:Japanese
-
Abstract:
This study was designed to examine the relationship between exercise diuresis and running load, following seven types of running events by five male athletes, aged 19 to 25 years. None had a history of renal disease.
Informed written consent was obtained from all subjects prior to the study.
1. Compared to the resting levels, significant increases in the urinary volume were observed thirty minutes after performing a 400-meter dash, but not after the other exercises.
2. The changes in creatinine concentration (30 min after exercise/after warm-up) were inversely proportional to the changes in urinary volume, indicating that exercise diuresis depends on the depressed reabsorption of water in the renal tubules.
3. The absence of diuresis after 60 and 100-meter sprints, indicates that the phosphagen system is mainly employed for energy supply.
4. The urinary volumes after 200, 300 and 400-meter dashs highly correlated with the changes in the excretion rate of pyruvate. This suggests that exercise diuresis is related to the lactic system in energy metabolism.
5. The decreased excretion rate of creatinine after 800 and 1, 500-meter runs indicates that GFR is reduced by these exercises. Furthermore, the lactic energy system caused the diuretic effect. Thus, even though secretion of antidiuretic hormones is increased following exercise, their effectiveness is reduced by lactic oxygen deficit.
