Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020500 (hyperoxaluria)
912 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oral sodium cellulose phosphate, an inhibitor of intestinal calcium absorption, may reduce urinary magnesium, increase urinary oxalate, and have a limited hypocalciuric action or cause negative calcium balance in the absence of increased calcium absorption or in the presence of renal calcium "leak". To overcome these potential complications, we have taken the following precautions: oral magnesium supplements were given, a moderate oxalate restriction was imposed, a modest dose of sodium cellulose phosphate was used (usually 10 g per day), and only patients with documented absorptive hypercalciuria were treated. During a cumulative treatment period of 42.8 years, 18 patients with recurrent calcium nephrolithiasis showed a sustained reduction in urinary calcium, without developing consistent or substantial reduction in urinary magnesium, hyperoxaluria, hyperparathyroidism, or reduced bone density, Urinary saturation (relative saturation ratio) of calcium oxalate and brushite typically decreased. Remission of stone disease was found in 78 per cent of patients. We conclude that sodium cellulose phosphate is a useful drug for absorptive hypercalciuria when used appropriately.
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PMID:A cautious use of sodium cellulose phosphate in the management of calcium nephrolithiasis. 729 89

With a new enzymatic method, the dietary influence of oxalate, glycine, protein, and ascorbic acid on serum and urinary oxalate has been examined. Healthy and oxalate stone-forming subjects were compared. Two doses of sodium oxalate (130 and 400 mg daily) were administered. The high dose induced significant hyperoxaluria. No changes of serum oxalate were seen. Neither glycine (4.5 g daily) nor protein (50 g daily, 50% animal protein) had any effect on serum or urinary oxalate. Urinary oxalate excretion did not increase upon ingestion of large amounts of ascorbic acid (1--6 g daily), but serum oxalate levels were significantly elevated. The value of severe dietary restrictions concerning the compounds examined here seems to be questionable, as a significant increase of urinary oxalate excretion is lacking.
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PMID:Dietary influence on serum and urinary oxalate in healthy subjects and oxalate stone formers. 742 75

A shortened small intestine may end at a stoma or be anastomosed to the colon. Patients with a jejunostomy, but not those with a colon, lose large amounts of sodium. The intake and absorption of sodium can be increased by sipping a sodium-glucose solution; stomal loss can be reduced by restricting water or low-sodium drinks. If a stoma is situated less than 100 cm along the jejunum, a constant negative sodium balance may necessitate parenteral saline supplements. Gastric anti-secretory drugs or a somatostatin analogue reduce jejunostomy losses in such patients but do not restore a positive sodium balance. Loperamide or codeine phosphate benefit some patients. Magnesium deficiency can usually be corrected by oral magnesium oxide supplements. An elemental or hydrolysed diet is not beneficial. Patients with a jejunostomy can maintain a normal diet without fat reduction. When the colon is present, unabsorbed carbohydrate is fermented to absorbable short chain fatty acids. Unabsorbed long chain fatty acids and bile salts cause watery diarrhoea and increased colonic oxalate absorption with hyperoxaluria. Such patients benefit from a high carbohydrate, low-fat and low-oxalate diet. Parenteral nutrition is needed only by the few patients unable to maintain health or avoid socially disabling diarrhoea despite these measures.
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PMID:Review article: practical management of the short bowel. 769 44

This study concerns the effect of an aqueous extract of Tribulus terrestris on the metabolism of oxalate in male rats fed sodium glycolate. Glycolate feeding resulted in hyperoxaluria as well as increased activities of oxalate synthesizing enzymes of the liver i.e. glycolate oxidase (GAO), glycolate dehydrogenase (GAD) and lactate dehydrogenase (LDH), and decreased kidney LDH activity. T. terrestris administration to sodium glycolate fed rats produced a significant decrease in urinary oxalate excretion, and a significant increase in urinary glyoxylate excretion, as compared to sodium glycolate fed animals. The supplementation of T. terrestris with sodium glycolate also caused a reduction in liver GAO and GAD activities, whereas liver LDH activity remained unaltered. The isoenzyme pattern of kidney LDH revealed that normalization of kidney LDH by T. terrestris feeding was mainly due to an increase in the LDH 5 fraction. The LDH 1 isoenzyme remained unchanged in all the groups.
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PMID:Effect of Tribulus terrestris on oxalate metabolism in rats. 785 65

The serum and 24 hour urinary excretion levels of various lithogenic and inhibitory substances were assessed in 24 male patients with calcium stone and no previous history of urolithiasis and in 19 age-matched controls. Two groups did not differ significantly (P < 0.01) except in the excretions of sodium, citric acid (being higher in normals) and inorganic phosphate (being higher in patients). Fifty percent patients had hyperphosphaturia, 29.2% hypocitraturia, 20.8% hyperoxaluria and 16.7% hypercalciuria. The present data suggests that hypocitraturia in association with phosphaturia might be one of the main risk factors responsible for calcium urolithiasis in this area.
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PMID:Is hypocitraturia associated with phosphaturia--a potential cause of calcium urolithiasis in first-time stone formers. 799 62

In order to better understand the role of diet in etiology of urolithiasis, 84 oxalo-phospho-calcic-lithiasic patients (52 men, 32 women) have been studied by a nutritional week-interview and by urinary and blood testing. Diet data were compared to an ideal standard. Total caloric intake was 2428 +/- 651 calories/d; this intake is high in 7% women and 40% men. 79% out of patients are fat. Protidic intake is 87 +/- 21 g/d higher than 1 g/kg/d in 84.5% of patients. Lipids are high in 38.9 +/- 7%, glucid are low in 45.3 +/- 7%. Calcium intake is 934 +/- 406 mg/d, sodium intake is 12.9 + 3 g/d. Water intake is 2305 +/- 759 ml/d. Different groups of patients are studied: a) 21 patients with mean age of 43 +/- 12 years have recurrent lithiasis (R). This group is compared to 48 patients with 37 +/- 44 years who have a single lithiasis. Half of (R) patients have hypercalciuria, hyperphosphaturia and hyperoxaluria. Diet study is no different between these two groups. b) Other groups are studied: 21 have hyperophosphaturia (HPU) without hypophosphoremia and they have hypercalciuria, hyperuraturia and high urinary urea; diet shows higher glucicid and potassium intake than group with normal phosphaturia; 23 have hypercalciuria (HCU) and high uraturia and phosphaturia: diet study shows no difference with a group with normal calciuria. 21 have hyperoxaluria (HOU): diet study of a normal oxaluric group shows higher lipid intake, lower glucidic and calcium intake; 22 have hyperuraturia (HAU) and higher urinary urea, sodium and potassium than normouraturia group: in this group potassium intake is higher.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Results of dietary evaluation during calcium oxalate and calcium phosphate lithiasis]. 814 88

Anomalies in the erythrocyte transport of anions and cations have been described in idiopathic calcium oxalate nephrolithiasis and seem to play a pathogenetic role in this disease. In consideration of the hypothesis that the complex array of ion flux cell abnormalities is an epiphenomenon of an anomaly in the composition of cell membranes, this study investigated cell-membrane lipid composition. In idiopathic calcium oxalate renal stone formers, in which ion transport abnormalities were present, and in healthy control subjects, plasma and erythrocyte membrane lipid composition, the erythrocyte oxalate exchange, and Na/K/2Cl cotransport activity were evaluated. Furthermore, in stone formers, the effect of a 30-day fish-oil diet supplementation on plasma lipids, erythrocyte oxalate exchange, oxaluria, and calciuria was investigated. The effect of archidonic acid released by phospholipase A2 on anion-carrier phosphorylation and activity in erythrocytes was evaluated as well. Patients had a lower content of linoleic and higher concentration of archidonic acids in both plasma and erythrocyte membrane phospholipids, and an increased archidonic/linoleic acid ratio. The archidonic acid level correlated with the erythrocyte oxalate exchange and sodium cotransport activity. Fish-oil supplementation lowered calcium and oxalate urine excretion, and normalized the erythrocyte oxalate exchange. Phospholipase A2 increased the erythrocyte anion-carrier protein phosphorylation and the oxalate exchange. This study shows that idiopathic calcium nephrolithiasis in the patient group reported here is characterized by a systemic defect in phospholipid archidonic acid levels that might provide an answer to the link between genetic background, dietary habits, and renal lithiasis.
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PMID:Anomalous phospholipid n-6 polyunsaturated fatty acid composition in idiopathic calcium nephrolithiasis. 872 96

The effects of clofibrate feeding (5 g/kg diet) on oxalate metabolism were investigated in male and female rats. Following clofibrate feeding, 24-hour urinary excretion of oxalate increased until 4 days and then reached a plateau. Whereas the contribution of dietary oxalate (1.4 g/kg diet, as potassium salt) to urinary oxalate was less than 5% in both control and clofibrate-treated male rats, the contribution of dietary glycolate (1.0 g/kg diet, as sodium salt) to urinary oxalate was six times higher in clofibrate-treated male rats compared with controls, indicating that the clofibrate-induced hyperoxaluria is due to increased endogenous biosynthesis of oxalate. This was supported by the increased lactate dehydrogenase (LDH) activity observed in liver supernatants of clofibrate-treated rats compared with controls, and the increased rate of conversion of glycolate and glyoxylate to oxalate by clofibrate-treated male rat liver supernatants. Female rats had lower excretion of urinary oxalate and lower levels of liver glycolic acid oxidase (GAO) as compared with males. Clofibrate-treated female rat liver supernatants had higher LDH levels and produced more oxalate from glyoxylate. Thus, it can be concluded that the increase in LDH activity may be the cause of the increased endogenous biosynthesis of oxalate leading to increased urinary excretion of oxalate in male and female rats treated with clofibrate.
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PMID:Clofibrate feeding to Sprague-Dawley rats increases endogenous biosynthesis of oxalate and causes hyperoxaluria. 903 Aug 17

This review describes the supposed mechanisms leading to idiopathic hypercalciuria (IHU) in childhood, further the diagnostic criteria and the proposed treatment modalities are discussed. IHU is not only one of the main causes of renal stone disease in children but it's also at the origin of the postglomerular haematuria and the frequency-dysuria syndrome. Its role in the development of osteoporosis in adults is also documented. The diagnosis of raised calcium excretion is based on age specific values during early infancy. In older children and adults a urinary calcium/creatinine ratio exceeding 0.6 mmol/mmol is regarded as elevated. Dietary calcium restriction can no longer be recommended for the treatment of IHU because it results in secondary hyperoxaluria and on the long-term causes decreased bone mineral density. Patients should be kept on dietary sodium restriction and high fluid intake. In cases IHU associated with recurrent episodes of macroscopic haematuria or recurrent stone disease a therapeutic trial with hydrochlorothiazide in the dose of 0.5-1 mg/kg/day with potassium-citrate supplementation and possibly magnesium citrate should be started. In some special forms of hypercalciuria such as the X-linked recessive nephrolithiasis syndrome or Bartter syndrome the localization and in some cases even the molecular mechanism of the events leading to increased calcium excretion are elucidated. In IHU enhanced Ca(++)-ATPase, and Na-Li countertransport activity and decreased Na+/K+ ATPase activity were described in the erythrocyte membrane model. It is expected that with the molecular genetic development the clinical classification of the hypercalciuric syndromes will become a rational genome-based one.
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PMID:[Idiopathic hypercalciuria in childhood]. 987

Population based data on urinary excretion of various metabolites of pathological importance, Calcium, Magnesium, Sodium, Potassium, Oxalates, Citrates, Phosphates, Uric acid and urea have been collected from around three hundred children of the Quetta valley. The body weight was in the range of 11-50 kg and the age was in between 4-16 years. The urine excretion average was 987.5 +/- 452.5 ml per 24 hours. There was 11.5% incidence of hypercalciuria, 8.5% incidence of hyperuricosuria, 2.0% hyperphosphaturia, 2.5% hypomagnesuria, 3.5% hypocitraturia, 6.5% hypernatriuria, 43.5% hypokaliurea and 2.1% hyperoxaluria. Urea excretion average was 23.11 +/- 14.99 g per 24 hours. The study provided the basis for childhood reference pattern in urinary excretion of compounds related to various pathological conditions, in particular stone formation in this region.
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PMID:Population based data on urinary excretion of various metabolites in children of north western region of Pakistan. 1006 40


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