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Query: UMLS:C0020500 (hyperoxaluria)
912 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Precipitation of calcium oxalate was studied in a group of ten patients who underwent transurethral prostatectomy with glycine irrigation. Post operatively all patients showed hyperoxaluria; 60% with oxaluria higher than 10 times the critical concentration of calcium oxalate in urine. Other factors, known to favour crystallogenesis were modified during the same period: low urinary output, relative hypercalciuria and uraturia and hypomagnesuria. Thus, conditions for intraluminal precipitation of calcium oxalate were present post operatively. We suggest the use of a xanthine oxidase inhibitor to prevent hyperoxaluria.
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PMID:Calcium oxalate precipitation in urine following T.U.R. with glycine as irrigation fluid. 367 69

The increasing incidence of urolithiasis makes it important to report about 34 children with urolithiasis seen between 1976 and 1986 at the Department of Pediatrics, University Medical School Vienna. At the time of the first diagnosis 59 percent of the patients were less than 7 years of age; 62 percent of our patients were males. Recurrent chronic urinary tract infection in 32 percent, metabolic disorder (secondary hyperoxaluria 5, idiopathic hypercalciuria 3, cystinuria 2, hyperuricuria 2) in 27 percent were evaluated; in 13 patients the origin of calculi was idiopathic. Most infectious stones contained magnesium ammonium phosphate, most idiopathic stones calcium oxalate. In 21 patients (62%) surgical treatment, in one patient extracorporal shock wave lithotripsie was realized. Adequate metaphylaxis (general, dietetic, medicementous) can lower the rate of occurrence of stone formation.
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PMID:[Urolithiasis in pediatrics: analysis of 34 patients]. 368 52

Fifty-two cases of urinary tract calculus disease were investigated for dietary habits, routine chemical and microscopic urinalysis, bacterial culture, quantitative analysis of 24 h urine sample and qualitative analysis of the stones. 54 out of the 56 stones analysed were of mixed type. Magnesium ammonium phosphate was present in 78.2% stones. Dietary habits revealed principal dependence on cereals, lack of animal proteins, consumption of oxalate rich vegetables and widespread consumption of tea. Urinary tract infection was present in 63.7% of the cases. Significant calcium oxalate crystalluria (2+ to 4+) was present in 34.6% of the cases. Hyperoxaluria, hypercalciuria associated with hyperoxaluria-lower excretion of magnesium and citric acid were important urinary risk factors in the local population. These observations strongly suggest the multifactorial etiology of stone disease in this region. Imbalanced nutrition and urinary tract infection were the principal risk factors for urolithiasis in this study.
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PMID:The etiology of urolithiasis in Udaipur (western part of India). 372 15

Hyperoxaluria may result in diffuse deposition of calcium oxalate crystals in multiple organs. A patient with primary hyperoxaluria presented with peripheral ischemia on this basis. Computed tomography clarified the diagnosis and helped to direct the appropriate management.
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PMID:Vascular and soft tissue calcification in systemic oxalosis: CT diagnosis. 373 14

The high incidence of renal lithiasis in hyperparathyroidism (55 p. 100) suggests that PTH plays a causal role in stone production. It also motivates a systematic search for primary hyperparathyroidism in all patients with renal stones although it is only found in about 7 p. 100 of cases. PTH acts through the stimulation of 1.25(OH)2 vitamin D production and therefore, the absorption of calcium from the intestine, which in turn increases the filtrable calcium, hence the calciuria. In renal stones, in general, hypercalciuria represents one of the major metabolic disturbances, besides the hyperoxaluria, hyperuricosuria and the reduction of the inhibitors of crystallization. However, hypercalciuria is rarely the indirect result of excess PTH. It is usually caused by increased dietary ingestion of NaCl, meat, calcium and possibly carbohydrates.
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PMID:[Renal lithiasis in idiopathic hypercalciuria and primary hyperparathyroidism]. 376 88

An investigation of variables important to calcium stone formation in urine indicated significantly increased daily excretion of calcium and oxalate and decreased excretion of ascorbate and citrate by recurrent calcium stone formers. In addition, urine volume, sodium, mucopolysaccharide, and protein were also significantly increased. We compared the uptake of citrate and ascorbate from the gut into the blood in normal controls and stone formers. These studies indicated significantly depressed absorption of both these hydroxycarboxylic acids in recurrent calcium stone formers. We also found that concurrent administration of citrate inhibited ascorbate absorption and increased urinary oxalate excretion after an ascorbate load in normal subjects and stone formers. These findings suggest a mechanism that explains hyperoxaluria in stone patients on the basis of a malabsorption of citrate, ascorbate, and possibly other hydroxycarboxylic acids.
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PMID:Chemical factors important to calcium nephrolithiasis: evidence for impaired hydroxycarboxylic acid absorption causing hyperoxaluria. 380 7

Three cases of mild metabolic hyperoxaluria (with glycollaturia) are described. They showed different types of response to pyridoxine. One responded to low dose, one responded at first to low dose but became resistant, and the third showed temporary response to high dose. One case also had primary hyperparathyroidism and one had medullary sponge kidneys and hypercalciuria. It is important to measure urinary oxalate (and glycollate) in all cases of calcium oxalate urolithiasis.
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PMID:Mild metabolic hyperoxaluria and its response to pyridoxine. 381 Oct 39

We evaluated 113 patients with recurrent or multiple calcium urolithiasis at our outpatient stone clinic between 1980 and 1983. Diagnostic categories included hypercalciuria (36 patients), hyperoxaluria (35 patients), and hyperuricosuria (31 patients). Thiazides and/or allopurinol were administered to the hypercalciurics and hyperuricosurics, respectively for prevention of stone recurrence. Patients followed up for more than one year were 23 (male 16, female 7) in the thiazide group, and 15 (male 12, female 3) in the allopurinol group. The mean treatment interval was 2.49 years in the former, and 2.35 years in the latter. The remission rate (percentage of patients without formation of any new stones) was 82.6% in the thiazide group, and 73.3% in the allopurinol group. The group stone formation rate was reduced from 0.85 to 0.35/pt-yr in the thiazide group, and from 0.74 to 0.27/pt-yr in the allopurinol group. Efficacy of these two drugs for the prevention of calcium stone recurrence was observed in this selective therapy, but a careful double blind study should be carried out to draw a definite conclusion.
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PMID:[Experimental and clinical studies on calcium lithiasis. II. Prevention of recurrent calcium stones with thiazides and allopurinol]. 381 44

Oral oxalate loading using sodium oxalate or a vegetable juice was done to evaluate the intestinal absorption of exogenous oxalate in 30 patients with renal stones and 13 healthy controls. Fifteen calcium oxalate stone formers, 7 non-oxalate stone formers and 10 healthy volunteers were given an oral loading of sodium oxalate (500 mg). Urinary oxalate increased promptly, reaching a peak value within 4 to 8 hours after administration of a synthetic oxalate orally in a fasting state. In calcium oxalate stone formers, the mean increment of urinary oxalate and the bioavailability following oral sodium oxalate load were significantly higher than in the healthy controls and non-oxalate stone formers. Furthermore, intestinal hyperabsorption of oxalate in our criterion was defined in six patients with calcium oxalate stones (40%). On the other hand, eight calcium oxalate stone formers and three healthy controls were given vegetable juice. Urinary oxalate was increased only slightly after the ingestion, and there was no difference between calcium oxalate stone formers and normal controls. These results suggest that a certain hyperoxaluria might be induced by intestinal absorption of exogenous oxalate, and that the hyperabsorption might indicate a possible risk factor for calcium oxalate stone formation.
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PMID:[Renal oxalate excretion following oral oxalate load in patients with urinary calculus disease and healthy controls]. 382 24

Rats with a portacaval anastomosis are known to be susceptible to develop uric acid stones. The present studies were undertaken to investigate urinary Mg, Ca and oxalate excretion in such rats. We found that their Mg excretion was doubled, Ca excretion tripled, and oxaluria somewhat decreased. The Ca crystallization attributed to the increased Ca2+ in the urine is, therefore, somewhat held in check by the increased presence of Mg in the urine and by decreased oxalates.
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PMID:[Behavior of urinary magnesium in comparison with urinary calcium and oxaluria in rats subjected to portacaval anastomosis]. 383 56


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