Baggio B, Gambaro G, Marchini F, Cicerello E, Tenconi R, Clementi M, Borsatti A
N Engl J Med. 1986 Mar 6;314(10):599-604. doi: 10.1056/NEJM198603063141002.
We measured the rate of oxalate flux across the red-cell membrane in the steady state in 114 patients with a history of calcium oxalate kidney stones and in 25 controls. Of the patients, 98 had recurrent, "idiopathic" kidney stones, 8 had primary hyperparathyroidism, 7 had renal or urinary tract malformations, and 1 had primary hyperoxaluria. Oxalate exchange was significantly higher in the 98 patients with idiopathic stone formation than in the controls (-1.10 +/- 0.95 [SD] X 10(-2) min-1 vs. -0.31 +/- 0.12 X 10(-2); P less than 0.001); it was above the upper limits of normal in 78 of these patients. All 8 patients with hyperparathyroidism and the patient with primary hyperoxaluria had values in the normal range; 2 of the patients with renal or urinary tract malformation had values at the upper normal limit. A study of five families indicated that the abnormality is an autosomal monogenic dominant trait with complete penetrance and variable expressivity. Oxalate-tolerance tests were carried out in five pairs of brothers. One brother in each pair had the abnormality in oxalate flux, and had a significantly higher percentage of oxalate excretion at two hours after oxalate loading (18.09 +/- 3.07 [SD] vs. 10.37 +/- 3.08 percent; t = 3.97; P less than 0.005) and four hours (14.87 +/- 2.91 vs. 9.89 +/- 2.93 percent; t = 2.70; P less than 0.05). Treatment with oral hydrochlorothiazide (50 mg per day) or amiloride (5 mg per day) or both restored normal or nearly normal red-cell oxalate exchange in all of 33 patients who initially had increased rates. We conclude that an inherited cellular defect in oxalate transport may be a factor in "primary" calcium oxalate stone formation and that this defect may be corrected with diuretics.
我们测定了114例有草酸钙肾结石病史的患者及25名对照者红细胞膜在稳态时草酸通量的速率。在这些患者中,98例有复发性“特发性”肾结石,8例有原发性甲状旁腺功能亢进,7例有肾脏或泌尿道畸形,1例有原发性高草酸尿症。98例特发性结石形成患者的草酸交换显著高于对照组(-1.10±0.95[标准差]×10⁻²分钟⁻¹对-0.31±0.12×10⁻²;P<0.001);其中78例患者的草酸交换高于正常上限。所有8例甲状旁腺功能亢进患者及1例原发性高草酸尿症患者的值均在正常范围内;2例肾脏或泌尿道畸形患者的值处于正常上限。对五个家系的研究表明,该异常是一种常染色体单基因显性性状,具有完全外显率和可变表达性。对五对兄弟进行了草酸耐量试验。每对兄弟中的一个有草酸通量异常,在草酸负荷后两小时草酸排泄百分比显著更高(18.09±3.07[标准差]对10.37±3.08%;t = 3.97;P<0.005),四小时时也是如此(14.87±2.91对9.89±2.93%;t = 2.70;P<0.05)。对最初速率增加的33例患者,用口服氢氯噻嗪(每日50毫克)或阿米洛利(每日5毫克)或两者联合治疗,使红细胞草酸交换恢复正常或接近正常。我们得出结论,草酸转运的遗传性细胞缺陷可能是“原发性”草酸钙结石形成的一个因素,并且这种缺陷可用利尿剂纠正。
