Potassium needed for maintaining its balance in healthy male subjects residing in an area of low potassium intake and with a high environmental temperature

Potassium needed for maintaining its balance in healthy male subjects residing in an area of low potassium intake and with a high environmental temperature

Low potassium (K) intake and high prevalence of hypokalemia and hypokaliuria among rural dewellers in the northeast region of Thailand have been repeatedly reported and they were speculated to be in a state of low K status. In this communication we studied K balance of 10 rural (R) and 5 urban (U) m...

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Veröffentlicht in:Journal of the Medical Association of Thailand 1999-07, Vol.82 (7), p.690-700
Hauptverfasser: SRIBOONLUE, P, SUWANTRAI, S, TUNGSANGA, K, PRASONGWATANA, V, BOVORNPADUNGKITTI, S, TOSUKHOWONG, P
Format: Artikel
Sprache:eng
Schlagworte:
Adult
Biological and medical sciences
Dietary Supplements
Environment
Feces - chemistry
Food Analysis
Hot Temperature
Human physiology applied to population studies and life conditions. Human ecophysiology
Humans
Male
Medical sciences
Middle Aged
Nutritional survey. Food supply and nutritional requirement
Potassium - administration & dosage
Potassium - analysis
Potassium - metabolism
Reference Values
Regression Analysis
Rural Population
Sweat - chemistry
Thailand
Tropical medicine
Urban Population
Urine - chemistry
Water-Electrolyte Balance - physiology
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Zusammenfassung:Low potassium (K) intake and high prevalence of hypokalemia and hypokaliuria among rural dewellers in the northeast region of Thailand have been repeatedly reported and they were speculated to be in a state of low K status. In this communication we studied K balance of 10 rural (R) and 5 urban (U) male subjects in this region during a 10-day period of semi-free-living and eating group-selected diets. While K in intake, 24-h urine and feces were measured daily in all subjects, the direct measurement of K lost in sweat was made only in one subject coded R3. These parameters were then used to calculate the K balance. The results showed that mean K intakes were 1731 +/- 138 and 1839 +/- 145 mg/day for R and U subjects, respectively. Their mean K balances, calculated by subtracting the K excretions in 24-h urine (721 +/- 129 mg/day for R and 919 +/- 186 mg/day for U) and in feces (148 +/- 25 mg/day for R and 164 +/- 21 mg/day for U) from intakes, were +860 +/- 140 and +756 +/- 222 mg/day for R and U, respectively. In the subject R3, his mean K balances without and with subtracting the sweat K excretion (451 +/- 57 mg/day), were +847 +/- 373 and +396 +/- 344 mg/day, respectively. Regression of K balance versus intake indicated that R and U subjects needed K of 832 and 884 mg/day to stay in balance. Since the study was performed during the hot season (average temperature = 35.2 +/- 2.0 degrees C at 3 pm) and sweating was clearly observed (estimated sweat volume per day was 1927 +/- 420 ml for R and 1759 +/- 408 ml for U), therefore, K balance calculated without sweat K was overestimated. This was apparently seen in the subject R3 where he actually needed K of 1203 mg/day, instead of 814 mg/day calculated without sweat K, to stay in balance. The similarities in K balance data among the two groups suggested they both had the same food habit and K status. Our results indicate that any calculation for the levels of dietary K, or probably also for other minerals, to achieve the balance could be underestimated if loss via sweat is not taken into consideration.
ISSN:0125-2208