Kovacević L, Kovacević S, Smoljanić Z, Kostić M, Peco-Antić A, Gajić M, Kovacević M, Jovanović O
University Children's Hospital, Belgrade.
Srp Arh Celok Lek. 1998 Jul-Aug;126(7-8):223-7.
Renal stone disease is commonly due to hypercalciuria [1, 2], which may be assessed either from a 24-hour urinary collection or from the fasting first morning urine. Hypercalciuria during childhood has been defined by a 24-hour calcium excretion greater than 3.5 mg/kg per day and/or calcium to creatinine ratio greater than 0.20 [3]. The alteration in the calcium transporting systems plays a pathogenetic role in promoting hypercalciuria [4, 5]. Since calcium reabsorption along the nephron is intimately related to that of other electrolytes and substances, it can be hypothesized that patients with hypercalciuria may have other renal tubular defects. The aim of the study was to investigate proximal tubular function (tubular reabsorption of sodium, potassium, phosphate and glucose) and distal tubular function (urinary concentrating capacity and acidifying capacity) in children with hypercalciuria.
Two groups of children were studied: hypercalciuric group included 23 children with hypercalciuria (10 males, aged 11.9 +/- 4.1 years), of whom 6 with nephrolithiasis, and control group included 42 healthy children (20 males, aged 11.2 +/- 3.8 years). All subjects had normal serum values for calcium, sodium, potassium, phosphate and glucose, as well as normal renal function. The urinary excretion of calcium, sodium, potassium, phosphate, glucose and creatinine was measured in a 24-hour urine specimen by standard laboratory methods. Urine osmolality and urinary specific gravity were measured following 12-hour water-deprivation test. A short ammonium chloride loading test was performed in 3 patients with urinary pH above 5.5. The fractional excretion of sodium, tubular phosphate reabsorption and renal threshold phosphate concentration were calculated according to standard formula. Statistical analysis was performed using the t-test and analysis of variance (ANOVA). Kruskal-Wallis method was used to compare urinary phosphate excretion between two groups.
Table 1 summarizes urinary excretion of electrolytes in children with hypercalciuria compared with healthy controls. We found that urinary sodium excretion was significantly increased in patients with hypercalciuria when compared with controls (p < 0.05). Urinary phosphate excretion was significantly higher in patients with hypercalciuria in comparison to controls, and this was accompanied by a significant lowering of the tubular phosphate reabsorptive threshold (p < 0.05). Urinary potassium excretion tended to be lower, although not significantly, in the hypercalciuric children than in normal subjects. Table 2 shows the mean values +/- standard deviation of urinary specific gravity, urinary osmolality and urinary pH. Urinary specific gravity mean value was significantly lower in patients with hypercalciuria in comparison to controls (p < 0.05). Urinary pH was found below 5.5 in all patients. Glycosuria was detected in 3 patients (13.3%). As shown in Graph. 1, a significant correlation between the urinary excretion of calcium and sodium was demonstrated in both groups of children (r = 0.29; p < 0.01).
The present study shows that children with hypercalciuria have significantly higher urinary sodium and urinary phosphate excretion in comparison to controls, while urinary potassium excretion is normal in both groups of children. According to some recent reports [6-9], these findings may indicated defects of the renal tubular transport of sodium and phosphate which may be interpreted as a cause or a consequence of the alteration of the calcium transporting system. Defects in both proximal and distal renal tubular functions have been demonstrated in patients with nephrolithiasis, particularly those with hypercalciuria. Proximal renal tubular defects include defects in sodium, fluid, phosphate and glucose reabsorption, which were evident also in our patients. (ABSTRACT TRUNCATED)
肾结石病通常归因于高钙尿症[1,2],可通过24小时尿液收集或空腹晨尿来评估。儿童期高钙尿症的定义为24小时钙排泄量大于3.5mg/kg/天和/或钙肌酐比值大于0.20[3]。钙转运系统的改变在促进高钙尿症中起致病作用[4,5]。由于沿肾单位的钙重吸收与其他电解质和物质的重吸收密切相关,可以推测高钙尿症患者可能存在其他肾小管缺陷。本研究的目的是调查高钙尿症儿童的近端肾小管功能(钠、钾、磷酸盐和葡萄糖的肾小管重吸收)和远端肾小管功能(尿液浓缩能力和酸化能力)。
研究了两组儿童:高钙尿症组包括23名高钙尿症儿童(10名男性,年龄11.9±4.1岁),其中6名患有肾结石;对照组包括42名健康儿童(20名男性,年龄11.2±3.8岁)。所有受试者的血清钙、钠、钾、磷酸盐和葡萄糖值以及肾功能均正常。通过标准实验室方法测量24小时尿液标本中钙、钠、钾、磷酸盐、葡萄糖和肌酐的尿排泄量。在12小时禁水试验后测量尿渗透压和尿比重。对3名尿pH值高于5.5的患者进行了短程氯化铵负荷试验。根据标准公式计算钠的分数排泄、肾小管磷酸盐重吸收和肾阈值磷酸盐浓度。使用t检验和方差分析(ANOVA)进行统计分析。采用Kruskal-Wallis法比较两组间尿磷酸盐排泄情况。
表1总结了高钙尿症儿童与健康对照组的电解质尿排泄情况。我们发现,与对照组相比,高钙尿症患者的尿钠排泄显著增加(p<0.05)。与对照组相比,高钙尿症患者的尿磷酸盐排泄显著更高,同时肾小管磷酸盐重吸收阈值显著降低(p<0.05)。高钙尿症儿童的尿钾排泄虽有降低趋势,但与正常受试者相比无显著差异。表2显示了尿比重、尿渗透压和尿pH值的平均值±标准差。与对照组相比,高钙尿症患者的尿比重平均值显著更低(p<0.05)。所有患者的尿pH值均低于5.5。3名患者(13.3%)检测到糖尿。如图1所示,两组儿童的尿钙排泄与尿钠排泄之间均存在显著相关性(r=0.29;p<0.01)。
本研究表明,与对照组相比,高钙尿症儿童的尿钠和尿磷酸盐排泄显著更高,而两组儿童的尿钾排泄均正常。根据最近的一些报道[6-9],这些发现可能表明肾小管钠和磷酸盐转运存在缺陷,这可能被解释为钙转运系统改变的原因或结果。肾结石患者,尤其是高钙尿症患者,已被证明存在近端和远端肾小管功能缺陷。近端肾小管缺陷包括钠、液体(此处原文似有误,应为fluid)、磷酸盐和葡萄糖重吸收缺陷,这在我们的患者中也很明显。(摘要截断)
