Evaluation of using spot urine to replace 24 h urine sodium and potassium excretions

• Published in: Public health nutrition Vol. 17; no. 11; pp. 2505 - 2511
• Main Authors: Hooft van Huysduynen, Eveline JC, Hulshof, Paul JM, van Lee, Linde, Geelen, Anouk, Feskens, Edith JM, van ’t Veer, Pieter, van Woerkum, Cees JM, de Vries, Jeanne HM
• Format: Journal Article
• Language: English
• Published: Cambridge, UK Cambridge University Press 01.11.2014
• Subjects: 24-hour; Accuracy; acid; Adult; Aminobenzoates - urine; Assessment and Methodology; Biomarkers - urine; calcium; Chromatography, High Pressure Liquid; collections; completeness; Creatinine; Creatinine - urine; European Continental Ancestry Group; Excretion; Female; Healthy Volunteers; Humans; Linear Models; magnesium; marker; Methods; minerals; Netherlands; p-aminobenzoic acid; potassium; Potassium - urine; samples; sodium; Sodium - urine; Urinalysis - methods; Urine; White people; Whites; women; Young Adult; Netherlands; United States > US; Urine; Sodium; Potassium; Monitoring; Prediction methods
• ISSN: 1368-9800; 1475-2727; 1475-2727
• DOI: 10.1017/S1368980014001177

The most accurate method to estimate Na and K intakes is to determine 24 h urinary excretions of these minerals. However, collecting 24 h urine is burdensome. Therefore it was studied whether spot urine could be used to replace 24 h urine samples. Participants collected 24 h urine and kept one voiding sample separate. Na, K and creatinine concentrations were analysed in both 24 h and spot urine samples. Also 24 h excretions of Na and K were predicted from spot urine concentrations using the Tanaka and Danish methods. In 2011 and 2012, urine samples were collected and brought to the study centre at Wageningen University, the Netherlands. Women (n 147) aged 19-26 years. According to p-aminobenzoic acid excretions, 127 urine collections were complete. Correlations of Na:creatinine, K:creatinine and Na:K between spot urine and 24 h urine were 0·68, 0·57 and 0·64, respectively. Mean 24 h Na excretion predicted with the Tanaka method was higher (difference 21·2 mmol/d, P<0·001) than the measured excretion of 131·6 mmol/d and mean 24 h Na excretion predicted with the Danish method was similar (difference 3·2 mmol/d, P=0·417) to the measured excretion. The mean 24 h K excretion predicted with the Tanaka method was higher (difference 13·6 mmol/d, P<0·001) than the measured excretion of 66·8 mmol/d. Bland-Altman plots showed large individual differences between predicted and measured 24 h Na and K excretions. The ratios of Na:creatinine and K:creatinine in spot urine were reasonably well associated with their respective ratios in 24 h urine and appear to predict mean 24 h Na excretion of these young, Caucasian women.