Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020438 (hypercalciuria)
2,502 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To define the degree of renal tubular involvement in idiopathic calcium nephrolithiasis, 18 patients (aged 23-60 years, 15 men and 3 women, with 1-30 years of renal stone history) with normal glomerular filtration rate (GFR) and effective renal plasma flow with no history of urinary tract infection and on no dietary or drug therapy underwent the following studies: measurement of proximal tubular maximum reabsorption of glucose (Tmglucose) and secretion of para-aminohippurate (TmPAH), urinary concentrating ability after 14 h of fluid deprivation, and urinary net acid excretion following an oral dose of ammonium chloride, 0.1 g/kg of body weight. Seventeen healthy subjects in the same age range served as control. Patients with calcium nephrolithiasis, with normal renal hemodynamic functions, have significantly lower proximal tubular maximum reabsorptive and secretory functions, diminished urinary concentrating mechanism, and reduced urinary net acid excretion following an oral acid load. These tubular functional abnormalities were observed in patients with or without hypercalciuria.
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PMID:Renal tubular dysfunctions in patients with idiopathic calcium nephrolithiasis. 369 99

Four per cent of the population in the industrialized countries of Europe suffer once or several times from urinary calculus in the course of their lives. The high number of recurrences (50 to 60%) necessitates specific prophylaxis. Depending on the precise stone composition, a specific metabolic investigation should be undertaken in cases with recurrent urinary calculus. Within a special laboratory diagnostic program, all major anomalies can be diagnosed by means of loading tests. With the ammonium chloride loading test, renal tubular acidosis is diagnosed; the calcium loading test differentiates the types of hypercalciuria and the purine loading test verifies "latent hyperuricaemia".
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PMID:Loading tests for diagnosis of metabolic anomalies in urinary stone formers. 372 64

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

Renal stone disease is a common problem in patients with spinal cord injury. The factors responsible are thought to include hypercalciuria and chronic urinary infection. There have, however, been no comparative studies of urinary composition in patients with neuropathic bladder with and without renal stone disease. Blood, 24-h urine samples and circadian variation of urinary composition were studied in male paraplegic patients with renal stone disease accompanied by urinary infection and in similar patients without stone disease with and without urinary infection. Two categories of stone patients were recognised, according to whether or not urinary oversaturation with magnesium ammonium phosphate occurred. The urine of all stone patients was oversaturated with calcium phosphate for part of each day. Urinary calcium was elevated in 16% and plasma urate in 30% of the paraplegics studied.
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PMID:Biochemical studies in paraplegic renal stone patients. 1. Plasma biochemistry and urinary calcium and saturation. 400 92

We have investigated and treated 176 patients who were suffering from renal calculi. The stones contained calcium in 87% of patients, predominantly urate in 11%, and rarely contained magnesium ammonium phosphate or cystine. Of the patients with calcium stones, hypercalciuria was present in 75% and was identified in 57% by the measurement of the 24-hour urinary calcium excretion, and in a further 18% by a standardization calcium "fast-and-load" test. Nine patients were found to have primary hyperparathyroidism and were treated surgically. A further 21% were suspected to have normocalcaemic hyperparathyroidism, and metabolic studies are being developed to clarify this. The treatment of hypercalciuria included a low-calcium diet, and various combinations of a thiazide diuretic, phosphate supplements and sodium cellulose phosphate. Hypercalciuria was controlled in all compliant patients, and only two developed further stones. Hyperuricosuria was rarely the sole metabolic abnormality in patients with calcium stones, though this might reflect the referral pattern of the Unit. Uric acid stones were frequently, but not invariably, associated with hyperuricosuria and acid urine, and even large uric acid calculi dissolved with a combined therapy of high fluid intake, allopurinol and an alkalinizing agent. Surgical treatment was rarely required in these patients. A stone in the renal pelvis of one patient was removed percutaneously and did not require ultrasonic fragmentation. Modern methods of investigation and treatment have greatly improved the outlook for patients with recurrent renal calculi.
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PMID:Investigation and treatment of renal calculi. 404 15

The effects of commonly used therapeutic doses of hydrochlorothiazide and probenecid, given singly and in combination, on the urinary excretion of monovalent and divalent ions and on acid-base equilibrium were studied in four patients with idiopathic hypercalciuria.Probenecid had no effect on the urinary excretion of monovalent ions but resulted in a sustained increase in the urinary excretion of calcium, magnesium and citrate and a temporary increase in the urinary excretion of ammonium, in addition to its well-known effects on uric acid metabolism. A temporary fall in serum phosphorus levels was also observed.Probenecid also modified the response to hydrochlorothiazide in that the urinary excretion of calcium, magnesium and citrate was greater during combined therapy than when hydrochlorothiazide was administered alone. Probenecid prevented or abolished the increase in serum uric acid levels associated with the use of thiazide but did not modify the effects of hydrochlorothiazide on the urinary excretion of sodium, chloride, potassiu, phosphorus, ammonium, titratable acid and bicarbonate.
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PMID:The effects of probenecid and thiazides and their combination on the urinary excretion of electrolytes and on acid-base equilibrium. 546 17

We report 5 cases of renal calculi associated with incomplete type I renal tubular acidosis. The patients presented with a history of recurrent calculi and demonstrated bilateral calculi with corticomedullary junction calcification on x-ray. Stone analysis revealed primarily calcium phosphate stones and metabolic studies demonstrated hypercalciuria, mild depression of serum bicarbonate and inability to lower the pH of a fasting morning urine to less than 5.8. The 24-hour urinary citrate excretion was depressed markedly. The diagnosis was confirmed by an ammonium chloride loading test. Treatment consisted of alkalization of the patients, which corrects the hypercalciuria and increases the urinary citrate level and should decrease the tendency to form stones. The diagnosis of incomplete type I renal tubular acidosis should be considered in patients with recurrent renal calculi.
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PMID:Renal calculi associated with incomplete distal renal tubular acidosis. 717 46

To study the mechanism of hypercalciuria in metabolic acidosis, ammonium chloride loading (long) test was performed in 68 stone formers and 50 controls. Administration of ammonium chloride in both stone formers and controls produced a significant increase in urinary volume, ammonium and calcium excretions, no change in plasma calcium and creatinine clearance and significant decrease in plasma bicarbonate. However, on the third day of ammonium chloride loading test, urinary ammonium excretion and plasma bicarbonate levels were significantly lower while urinary calcium excretion was significantly greater in stone formers than in controls. Thus calciuresis could be correlated with the degree of metabolic acidosis but not with the rate of urinary ammonium excretion.
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PMID:Mechanism of hypercalciuria in experimental metabolic acidosis. 721 89

A human metabolic study was conducted to observe the effect of level of protein intake on urinary calcium, calcium absorption and calcium balance in older adults and to further study the mechanisms of protein-induced hypercalciuria. An increase in protein intake from about 47 to 112 g while maintaining calcium, magnesium and phosphorus intakes constant caused an increase in urinary calcium and a decrease in calcium retention. Glomerular filtration rate was increased and fractional renal tubular reabsorption was decreased by the increase in protein intake; total renal acid, ammonium and sulfate excretions more than doubled, whereas urinary sodium decreased by 38%. The changes in urinary calcium were positively correlated with the increase in total renal acid and sulfate excretion as well as with the decrease in fractional renal tubular reabsorption of calcium. Thus, the data indicate that protein-induced hypercalciuria is due to an increase in glomerular filtration rate and a decrease in fractional renal tubular reabsorption of calcium, the latter of which may be caused by the increased acid load on the renal tubular cells.
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PMID:Studies on the mechanism of protein-induced hypercalciuria in older men and women. 735 1

Quantitative methods are described for the analysis of pH, sodium, ammonium, potassium, calcium, magnesium, chloride, phosphate, and sulfate, as well as terephthalic acid and dimethyl terephthalate, in a single urine sample as small as 20 microliter. The procedure utilizes ion chromatography and atomic absorption for electrolyte analysis, a microelectrode for pH measurement, and high-performance liquid chromatography for analysis of the organic compounds. The techniques are applied to urine samples freshly collected from rats ingesting dietary dimethyl terephthalate. Specific changes in urinary ions, including hypercalciuria and urinary acidosis, are shown to develop as a consequence of dimethyl terephthalate ingestion. The results indicate that metabolism of dimethyl terephthalate to terephthalic acid occurs extensively in Fischer-344 rats, and accounts for the ion changes that are observed.
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PMID:Microanalysis of urinary electrolytes and metabolites in rats ingesting dimethyl terephthalate. 744 34


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