磷酸钙源性肾结石形成的物理化学基础：关于透钙磷石的尿液饱和度计算

Physicochemical basis for formation of renal stones of calcium phosphate origin: calculation of the degree of saturation of urine with respect to brushite.

作者信息

Pak C Y

出版信息

J Clin Invest. 1969 Oct;48(10):1914-22. doi: 10.1172/JCI106158.

DOI:10.1172/JCI106158

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC322428/

Abstract

Brushite (CaHPO(4).2H(2)O) was considered to govern the formation of renal calculus of calcium phosphate origin. The degree of saturation of urine with respect to this phase was therefore calculated. This value was obtained from the ratio of the activity product of Ca(++) and HPO(4) (m) (K(sp)) before and after incubation of urine with brushite. The errors in the calculation of K(sp) were largely eliminated by this procedure.The urine of patients with idiopathic hypercalciuria and recurrent calcium-containing renal calculi was supersaturated with respect to brushit largely because of the high urinary concentration of Ca(++). The urine of normocalciuric subjects was undersaturated except at high urinary pH. This technique of estimating the degree of saturation of urine should allow a quantitative assessment of the various therapeutic regimens recommended for patients with nephrolithiasis.

摘要

磷酸氢钙二水合物（CaHPO₄·2H₂O）被认为在磷酸钙源性肾结石的形成过程中起主导作用。因此，计算了尿液相对于该物相的饱和度。该值是通过将尿液与磷酸氢钙二水合物孵育前后Ca²⁺和HPO₄²⁻（m）的活度积之比（Ksp）得出的。通过该程序，Ksp计算中的误差在很大程度上得以消除。特发性高钙尿症和复发性含钙肾结石患者的尿液相对于磷酸氢钙二水合物呈过饱和状态，这主要是由于尿液中Ca²⁺浓度较高。除尿液pH值较高时外，正常钙尿受试者的尿液呈不饱和状态。这种估计尿液饱和度的技术应能对推荐给肾结石患者的各种治疗方案进行定量评估。

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