Random Urinary Calcium/Creatinine Ratio for Screening Hypercalciuria in Children with Hematuria

Urinary creatinine reference values that take anthropometric data into account, which is mandatory during growth, are not available for healthy white children. We sought to establish anthropometry-based reference values for 24-h urinary creatinine excretion in healthy white children aged 3-18 y. Anthropometric variables and 24-h urinary creatinine excretion rates were determined cross-sectionally (225 boys and 229 girls). Age and sex dependency of 24-h creatinine excretion (crude and related to individual anthropometric variables) were assessed to derive appropriate creatinine reference values. The applicability of these creatinine reference values for estimation of daily excretion of certain analytes was assessed in 40 additional children. Sex-specific, body-weight-related creatinine reference values were derived for the following age groups: 3, 4-5, 6-8, 9-13, and 14-18 y. The 5th percentile exceeded 0.1 mmol x kg(-1) x d(-1) in all age groups >3 y. The use of these creatinine reference values for estimating average 24-h excretion rates of certain analytes (determined as the ratio of analyte to creatinine in spot urine samples) yielded reasonable estimates of mean 24-h urinary excretion rates actually analyzed (spot and 24-h urine samples from the same children). Ideal 24-h creatinine excretion values for height were also derived for a potential determination of the creatinine height index. Established anthropometry-based creatinine reference values are recommended as a convenient, simple tool to 1) identify severe 24-h urine collection errors, 2) calculate average 24-h excretion rates of certain analytes (from respective ratios of analyte to creatinine) determined in spot urine samples, and 3) assess somatic protein status by determining the creatinine height index.

To determine reference values for urinary phosphate/creatinine (Cr) concentration ratios and to complete reference values for urinary calcium/creatinine and magnesium/creatinine ratios in the second morning urine sample of healthy infants, children, and adolescents. Urinary P/Cr, Ca/Cr, and Mg/Cr ratios were determined from the second morning urine sample. Two urine samples were obtained 1 week apart from most subjects to assess reproducibility. Kindergartens and schools of Lausanne, Switzerland. A total of 410 healthy children aged 1 month to 17 years (197 girls and 213 boys) participated in the study. The 5th and 95th percentiles were estimated from 664 urine samples. There were no differences related to sex. A nonlinear regression in terms of age was used to smooth the estimated percentiles yielding reference curves from which critical values may be obtained for any given age. The 95th percentile for urinary Ca/Cr and Mg/Cr agreed with previously reported values in children older than 7 years. The upper limit of the three solute/creatinine ratios decreased significantly with age: for urinary P/Cr from 19.0 mol/mol at 1 month to 2.7 at 14 years; for urinary Ca/Cr from 2.2 to 0.7 mol/mol, and for urinary Mg/Cr from 2.2 to 0.6 mol/mol. Lower limits varied little. Interindividual and intraindividual variations decreased with age. Urinary P/Cr, Ca/Cr, and Mg/Cr ratios vary strongly with age. We provide reference values, expressed both in SI and in mass units, for urinary P/Cr, Ca/Cr, and Mg/Cr in children aged one month to 17 years.

To determine normal values for the urinary calcium/creatinine ratio (UCa/Cr) in infants. To assess the impact of short-term supplementation of infant formula with calcium and phosphorus on UCa/Cr in a group of infants. We determined UCa/Cr in randomly collected urine samples from a group of children and adults. Short-term supplementation of infant formula with calcium glycerophosphate was carried out in 21 infants, and UCa/Cr was monitored in a before-and-after trial. A pediatric clinic at an academic center (infants and adults), and a day-care center (older children). A total of 103 infants between 5 days and 7 months of age, 40 infants between 8 and 17 months of age, 41 children between 18 months and 6 years, and 31 adults. The 95th percentiles for molar UCa/Cr for the different age groups were as follows: less than 7 months, 2.42 (0.86 mg/mg); 7 to 18 months, 1.69 (0.60 mg/mg); 19 months to 6 years, 1.18 (0.42 mg/mg); and adults, 0.61 (0.22 mg/mg). Regression analysis indicated a statistically significant decline in average UCa/Cr with age (R2 = 0.115, p < 0.0001 for log (UCa/Cr) vs log (age)). The geometric means for the two groups of infants were significantly greater than those of the older children and the adults (p < 0.05). Values for UCa/Cr in adults in our sample were comparable to those previously reported. We detected no significant changes in mean UCa/Cr during week-long periods of calcium supplementation of up to 1.8 gm of calcium and 1.39 gm of phosphorus per liter of formula. We conclude that normal values for UCa/Cr are much higher in infants than in older children and adults; UCa/Cr is age-related and declines gradually in the first several years of life, and short-term supplementation of infant formula with calcium glycerophosphate has minimal effect on UCa/Cr.