UMLS:C0020500 - FACTA Search

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

Seventy-seven patients with nephrocalcinosis as revealed by X-ray studies over a 10-year period are reviewed. A programmed clinical and metabolic study was performed on each case; the author's criteria included the different pathogenic factors considered in the etiologic definition of the disease. There were 22 cases with primary hyperparathyroidism, 19 with spongy kidney, nine with tubulointerstitial nephropathy, five with hyperoxaluria, five with distal renal tubular acidosis, four with esential hypomagnesemia, and three cases of miscellaneous etiology (vitamin D intoxication, Fanconi's syndrome, Bartter's disease). Ten other cases were classified as idiopathic nephrocalcinosis since no definite cause could be found. The clinical characteristics (symptoms, associated diseases, diet and medication intake, family history) and the biochemical findings are analysed for each group. The physiopathologic mechanisms, comparisons between each etiologic group, treatment, clinical course, and prognosis are commented on. The conclusion drawn is that nephrocalcinosis is a clinical syndrome of various etiologies which in most cases arises from an underlying metabolic disease.
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PMID:[Nephrocalcinosis as a clinical syndrome. Study of 77 cases (author's transl)]. 52 25

The main risk factors for calcium urolithiasis that are clinically detectable are low diuresis, hypercalciuria, hyperruricuria, alkaline urinary pH, hyperoxaluria, hypomagnesuria, hypocitraturia. They should be evaluated, all the more precisely that the disease is active, under both the urological and metabolic points of view, using 24 hour urine collection made at home on a free diet with a dietary record. In the majority of the cases the calcic urolithiasis is idiopathic, i.e. not related to a cause of secondary hypercalciuria like primary hyperparathyroidism, or to a hyperroxaluria either primary or of digestive or toxic origin. Its treatment if mainly dietary with high fluid intake (diuresis greater than 2 1/24 h), normoclacic diet (800-1000h mh/24 h) with meat but not dairy product restriction, oxalate salts, carbohydrate and alcohol restriction. These dietary recommendations should be controlled by measuring the above cited parameters in the 24 hour urine samples and by measuring urea excretion which should not exceed 0.33 g/kg of body weight. When diet fails, drugs may be added mainly allopurinol, thiazides and potassium citrate.
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PMID:[Physiopathology, exploration and treatment of calcium lithiasis]. 178 95

The initial part of this presentation deals with the sensitivity of tests commonly used in the diagnosis of primary hyperparathyroidism. Total serum calcium levels often are normal in patients with small parathyroid adenomas but levels of serum ultrafilterable and/or ionized calcium usually are elevated in these patients. The recent introduction of improved radioimmunoassays for measurement of circulating parathyroid hormone has led to greatly improved sensitivity of this test for the diagnosis of primary hyperparathyroidism. However, measurement of total urinary cyclic adenosine monophosphate, even when expressed as a function of glomerular filtration rate, is an extremely insensitive test in patients who have parathyroid adenomas weighing less than 1 gm. Consequently, this test no longer is used for diagnostic purposes in our laboratory. Data relating to the prevalence and causes of hyperoxaluria in patients with idiopathic calcium oxalate stones also are presented. Hyperoxaluria (more than 450 mumol. per 24 hours) was found in 21 of 99 consecutive untreated male patients. Approximately a third of the patients with high normal or increased urinary oxalate excretion also have increased urinary glycolate excretion, which is indicative of increased endogenous oxalate production. This metabolic abnormality was unresponsive to pyridoxine administration but preliminary findings suggest that it may be corrected by restricting dietary protein.
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PMID:Clinical and laboratory approaches for evaluation of nephrolithiasis. 291 16

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

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

Using the ambulatory protocol previously described, 241 patients with nephrolithiasis were evaluated. They could be categorized into 10 groups from the results obtained. Absorptive hypercalciuria type I (87 per cent male) comprised 24.5 per cent and was characterized by normocalcemia, normal fasting urinary calcium (less than 0.11 mg/100 ml glomerular filtration), an exaggerated urinary calcium following an oral calcium load (greater than 0.20 mg/mg creatinine), normal urinary cyclic adenosine monophosphate (AMP) (less than 5.4 nmol/100 ml glomerular filtration) and serum parathyroid hormone (PTH), and hypercalciuria (greater than 200 mg/day during a calcium- and sodium-restricted diet). Absorptive hypercalciuria type II (50 per cent male) accounted for 29.8 per cent; its biochemical features were the same as those for absorptive hypercalciuria type I, except for normocalciuria during a restricted diet and low urine volume (1.42 +/- 0.55 SD liter/day). Renal hypercalciuria (56 per cent male), disclosed in 8.3 per cent, was represented by normocalcemia and high values for fasting urinary calcium (0.160 +/- 0.054 mg/100 ml glomerular filtration), urinary cyclic AMP (6.80 +/- 2.10 nmol/100 ml glomerular filtration) and serum PTH. Primary hyperparathyroidism (57 per cent female), accounted for 5.8 per cent, typically included hypercalcemia, hypophosphatemia, hypercalciuria and high urinary cyclic AMP. Hyperuricosuric calcium urolithiasis (100 per cent male) comprised 8.7 per cent, and was characterized by hyperuricosuria (776 +/- 164 mg/day) and urinary pH exceeding pK for uric acid (5.91 +/- 0.33). In enteric hyperoxaluria (60 per cent female), encountered in 2.1 per cent of cases, urinary oxalate was increased (6.29 +/- 13.2 mg/day). Noncalcium-containing stones were found in 2.1 per cent of the patients with uric acid lithiasis (100 per cent male) and in another 2.1 per cent of the patients with infection lithiasis (60 per cent female). These conditions were typified by low urinary pH (5.29 +/- 0.12) and high urinary pH (6.69 +/- 1.16), respectively. Renal tubular acidosis was found in one patient (male, 0.4 per cent). In 10.8 per cent of the patients (81 per cent male), no metabolic abnormality could be found, although urine volume was low (1.41 +/- 0.51 liter/day). Hypercalciuria could not be differentiated between absorptive hypercalciuria and renal hypercalciuria in 5.4 per cent of the patients. Thus, this ambulatory protocol disclosed a physiologic disturbance in nearly 90 per cent of the cases and provided a definitive diagnosis in 95 per cent of the patients.
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PMID:Ambulatory evaluation of nephrolithiasis. Classification, clinical presentation and diagnostic criteria. 624 14

The urinary citrate excretion was examined in patients with nephrolithiasis who were categorized on the basis of different physiologic or metabolic abnormalities. A wide prevalence of low citrate excretion (hypocitraturia) was observed, with over one half of our patients with stones exhibiting it. Hypocitraturia was found in all patient categories except primary hyperparathyroidism and hyperuricosuric calcium oxalate nephrolithiasis. As expected, hypocitraturia was present in renal tubular acidosis and in enteric hyperoxaluria. However, urinary citrate was also low in absorptive and renal hypercalciurias, and in patients in whom an acid-base disturbance was clearly excluded.
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PMID:Low urinary citrate excretion in nephrolithiasis. 682 13

389 consecutive renal stone formers (275 males, 114 females) were investigated in an out-patient stone clinic. Renal tubular acidosis (RTA) was found in 83 patients (22%). Proximal RTA was twice as common as the distal tubular type. The acidification defects were exclusively of the incomplete form with normal basal blood acidbase status. Main diagnoses besides RTA were primary hyperparathyroidism (3.5%), medullary sponge kidney (3.5%), infection induced stones (3%), urate stones (2%), intestinal disorder (1.5%) and cystinuria (0.5%). The metabolic evaluation was mainly based on 24 h urine sampling on a free diet. In 248 patients (64%) no distinct abnormality was considered to be primarily responsible for stone formation. Clinical and biochemical analysis of these so-called idiopathic stone formers disclosed a male preponderance (80%) and, compared to a non-stone-forming control group, a higher urinary calcium excretion, yet with a considerable overlap between the two groups. Hyperuricosuria and hyperoxaluria were rare findings. The conclusion of the study is given as a proposal for clinical classification and ambulatory investigation of renal stone formers.
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PMID:Ambulatory diagnostic evaluation of 389 recurrent renal stone formers. A proposal for clinical classification and investigation. 684 37

The aetiology of nephrolithiasis was investigated in 32 north Indian children (25 boys, 7 girls, mean age 7.9 +/- 3.3 years). An underlying disorder was detected in 16 (50%) patients and included idiopathic hypercalciuria (8 patients), hyperoxaluria (3 patients) and renal tubular acidosis, primary hyperparathyroidism and hyperuricosuria (1 patient each). Magnesium ammonium phosphate calculi were found in 2 patients with recurrent urinary tract infections, 1 of whom had a duplex pelvic collecting system. In 16 patients (50%) a cause for renal calculi was not identified. Our findings suggest that an underlying disorder is present in a large proportion of children with nephrolithiasis where appropriate treatment may be beneficial.
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PMID:Aetiology of nephrolithiasis in north Indian children. 757 12

Enteric hyperoxaluria and primary hyperparathyroidism have been associated with the development of nephrolithiasis. We report a case involving a patient who had hyperparathyroidism due to a parathyroid adenoma and enteric hyperoxaluria resulting from a small bowel bypass and who had severe stone-related complications. This combination of stone-generating factors has heretofore not been reported. The pathophysiology of these entities is discussed.
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PMID:Nephrolithiasis due to primary hyperparathyroidism and enteric hyperoxaluria: a case report. 865 Aug 79

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