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Query: UMLS:C0020500 (
hyperoxaluria
)
912
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The serum and urinary biochemical changes observed one month and six months after oral potassium citrate therapy (600 mEq/day) in 119 patients with calcium oxalate calculi were compared with those of 16 untreated cases with lithiasis. The patients that received treatment were previously divided into two groups: group A comprised 61 hypocitraturic patients and group B comprised 58 patients with other urinary disorders who were normo or hypocitraturic. The urinary pH increased by approximately half a point in both treated groups. In group A calciuria increased slightly from 180 +/- 8 to 216 +/- 10 mg/24 h but remained within the normal ranges. Creatinuria,
oxaluria
, uricosuria and diuresis showed no changes. Citraturia increased very significantly in both groups and more markedly in the hypocitraturic group of patients (from 198 +/- 13 to 476 +/- 35 mg/24 h). The LRC (lithogenic risk coefficient = Ca/
Cit
x Diu) dropped by 50%. The patients tolerated the treatment regimen well; of the 119 treated patients, only 11 abandoned treatment due to GI intolerance.
...
PMID:[Biochemical effects of potassium citrate in the treatment of calcium oxalate lithiasis]. 800 70
In idiopathic recurrent urolithiasis (IRCU) calcium oxalate and calcium phosphate are components of stones. It is not sufficiently known whether in urine the nucleation (liquid-solid transition) of each salt requires a different environment, if so which environment, and whether there is an impact on stone formation. Nucleation was induced by in vitro addition of oxalate or calcium to post-test meal load whole urine of male stone patients (n=48), showing normal daily and baseline fasting
oxaluria
. The maximally tolerated (until visible precipitates occur) concentration of oxalate (T-Ox) or calcium (T-Ca) was determined; additionally evaluated were other variables in urine, including total, complexed and free citrate (F-Cit), protein (albumin, non-albumin protein) and the clinical intensity (synonymous metabolic activity; MA) of IRCU. In the first of three trials the accumulation of substances in stone-forming urine was verified (trial-V); in the second (clinical trial 1) two strata of T-Ox (Low, High) were compared; in the third (clinical trial 2) IRCU patients (n=27) and a control group (n=13) were included to clarify whether in stone-forming urine the first crystal formed was calcium oxalate or calcium phosphate, and to identify the state of F-
Cit
. T-Ox was studied at the original pH (average < 6.0), T-Ca at prefixed pH 6.0; the precipitates were subjected to electron microscopy and element analysis. Trial-V: Among the urinary substances accumulating at the indicated pHs were calcium, oxalate and phosphate, and the crystal-urine ratios were compatible with the nucleation of calcium oxalate, calcium-poor and calcium-rich calcium phosphate; citrate, protein and potassium also accumulated. Clinical trial 1: the two strata exhibited an inverse change of T-Ox and T-Ca, the ratio T-Ox/T-Ca and MA. The initial (before induction of Ox or Ca excess) supersaturation of calcium oxalate and brushite were unchanged, with the difference of proteinuria being borderline. Several correlations were significant (p < or = 0.05): urine pH with citrate and volume, protein with volume and MA, T-Ox with T-Ca and MA. Clinical trial 2: in patients with reduced urine volume and moderate urine calcium excess, the first precipitate appeared to be calcium oxalate, followed by amorphous calcium phosphate. Conversely, when the calcium excess was extreme, calcium-rich hydroxyapatite developed, followed by calcium oxalate; F-
Cit
, not total and complexed citrate, was decreased in IRCU vs. male controls; F-
Cit
rose pH-dependently, and the ratio F-
Cit
at original pH vs. F-
Cit
at pH 6.0 correlated inversely with the nucleation index T-Ox/T-Ca; MA correlated inversely with the ratio F-
Cit
at pH 6.0, respectively, original pH, but directly with the urinary albumin/non-albumin protein ratio. In summary 1) to study calcium oxalate and calcium phosphate nucleation in whole urine of IRCU patients is feasible; 2) at this crystallization stage the two substances, dominant in calcium stones, appear intimately linked, 3) in stone-forming urine, calcium phosphate may be ubiquitously present, likely as particles < 0.22 microm; 4) together with co-precipitation of calcium oxalate and calcium phosphate, low F-Cit and alteration of proteinuria may act in concert and accelerate stones.
...
PMID:Is calcium oxalate nucleation in postprandial urine of males with idiopathic recurrent calcium urolithiasis related to calcium phosphate nucleation and the intensity of stone formation? Studies allowing insight into a possible role of urinary free citrate and protein. 1508 May 61
