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)

Male patients with recurrent calcium (Ca) urolithiasis (RCU) with idiopathic hypercalciuria (I-HC, n = 12) or normocalciuria (NC, n = 12), and age, sex, and weight-matched controls (C, n = 12) were evaluated before and after a carbohydrate-rich synthetic meal for blood glucose, free fatty acids (FFA), alpha-amino-nitrogen, several glucometabolic hormones and parathyroid hormone (PTH), and urine Ca, phosphate, oxalate, and cyclic adenosine monophosphate (cAMP) levels as well as saturation. Fasting serum Ca was significantly higher and PTH significantly lower in I-HC than in controls, whereas in fasting urine cAMP and phosphate were unchanged. There were only minor differences between fasting blood glucose levels and postprandial glucose tolerance of RCU patients and controls. However, serum insulin was significantly elevated in I-HC versus C, but serum C-peptide, plasma glucagon, and somatostatin levels were comparable in RCU and C. FFA were significantly lower in RCU than C. Postprandial phosphaturia and urinary saturation with Ca-phosphates were significantly higher in RCU versus C, whereas urinary cAMP, pH, and oxalate were similar. We conclude that: (1) in RCU patients some postabsorptive steps in glucose metabolism may be abnormal; (2) those with I-HC have enhanced postprandial Ca and phosphate excretion concomitantly with disordered insulin metabolism; and (3) RCU patients may suffer from a postprandial renal phosphate leak, which may make their urine more lithogenic.
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PMID:Blood levels of glucometabolic hormones and urinary saturation with stone forming phases after an oral test meal in male patients with recurrent idiopathic calcium urolithiasis and in healthy controls. 257 28

Idiopathic hypercalciuria, defined as the urinary excretion of more than 300 mg. calcium per day in men or more than 250 mg. calcium per day in women, or more than 4 mg. calcium per kg. per day, is observed in about 50 per cent of the patients with calcium oxalate/apatite nephrolithiasis and is one of the risk factors for stone formation. These patients do not exhibit hypercalcemia, elevated serum parathyroid hormone concentrations or urinary cyclic adenosine monophosphate excretion nor clinical evidence of sarcoidosis, other granulomas or a malignancy. Hypophosphatemia may be present. Augmented rates of intestinal absorption of dietary calcium account for most of the increments in urinary calcium. Serum 1,25-dihydroxyvitamin D concentrations are in the upper normal range or elevated among many patients and are normal but not suppressed in the others. Activation of 1,25-dihydroxyvitamin D formation may be secondary to hypophosphatemia or other, as yet undefined, factors. Since, 1,25-dihydroxyvitamin D apparently can up-regulate its own receptor, small increments in its synthesis and blood levels could amplify the effect of the hormone to stimulate intestinal calcium absorption. Calcium balances are slightly but significantly negative and urinary hydroxyproline excretion may be increased so that a generalized disorder of calcium homeostasis also involving bone may be present. Additional studies are required to determine the genetic basis for the occurrence of idiopathic hypercalciuria in families, the cause of greater expression of idiopathic hypercalciuria in men and whether environmental factors (high dietary sodium chloride, protein and purified carbohydrate intakes) contribute to the expression of idiopathic hypercalciuria. Although thiazide diuretics, inorganic phosphate, magnesium hydroxide and potassium citrate have provided effective therapy, prospective studies are needed to determine optimum therapy and the optimum duration of treatment.
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PMID:Idiopathic hypercalciuria. 264 29

The morphological and infrared spectrophotometric analysis of the urinary stones of 300 patients have been reported in this article. Calculi are classified into six morphological types with their corresponding mineralogical natures. The type I (whewellite or C1) is pure in 18 p. cent of lithiasis, more often present in the center than on the surface, with hyperoxaluria in 81 p. cent. Calculi linked to piridoxilate intake (3 p. cent) have this composition. The type II (weddellite or C2) rarely pure, often associated with calcium phosphate are present in 47 p. cent of lithiasis, more often on the surface than in the center, and linked to hypercalciuria in 70 p. cent. The oxalates (C1 plus C2) are the most frequent components of calculi (75 p. cent). The type IIIa and IIIb (anhydrous and dehydrated uric acid) are pure in 8 p. cent, mixed in 6 p. cent; due to hyperuraturia in 55 p. cent, due to urinary acid pH in 60 p. cent. The type IVa (carbapatite) is pure in 5 p. cent, mixed in 26 p. cent, linked to hypercalciuria in 40 p. cent. The types IVb and IVc (struvite plus carbapatite) are present in 12 p. cent, due to urinary infection (90 p. cent), linked to proteus (70 p. cent). The type V (cystine) is rare, linked to hypercystinuria. The type VIa (1 p. cent) is made of proteins. The type VIb (2 p. cent) is composed of medications (triamterene, glafenine, antrafenine).
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PMID:[Correlation of the cause and composition of renal calculi. Value of morphologic and infrared analysis]. 264 1

In normal individuals, 1,25-dihydroxyvitamin D (1,25-D) levels regulate calcium (Ca) absorption according to Ca intake; its synthesis is stimulated by low Ca intake, probably via increased parathyroid hormone (PTH) secretion, to increase Ca absorption, and suppressed during high intake to reduce Ca absorption. The body also adapts Ca absorption in response to renal Ca excretion, and phosphate absorption in response to phosphate intake. These adaptations may fail or be impaired in certain diseases. In disorders of overadaptation, the intestinal tract absorbs excessive amounts of Ca due to overproduction of 1,25-D, as in absorptive hypercalciuria, sarcoidosis, primary hyperparathyroidism, and tumoral calcinosis. Intestinal hyperabsorption and hypercalciuria may occur on both low- and high-Ca diets. Primary hyperparathyroidism and hypoparathyroidism are bihormonal, related to over- and underproduction, respectively, of both 1,25-D and PTH. Underadaptation disorders are typically related to low 1,25-D synthesis or resistance to this metabolite; examples include postmenopausal osteoporosis, chronic renal failure, and osteomalacia. Many of these adaptational disorders can be relieved or improved by manipulating Ca, phosphate, sodium, or protein intake or by administering exogenous 1,25-D. Overabsorption of Ca and other substances, such as oxalate, may be responsible for Ca nephrolithiasis. Hypocitraturia (which may be a complication of certain diseases or the result of unbalanced diet or excessive exercise), diets high in readily metabolizable sugars and purine-rich proteins (meat, poultry, and fish), and low fluid intake can all contribute to stone formation. Various regimens may reduce the risk of Ca nephrolithiasis.
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PMID:Calcium metabolism. 268 27

33 normocalcemic patients (22 males and 11 females) aged 20-68 years with recurrent renal stone formation and idiopathic hypercalciuria were compared to 33 approximately sex- and age-matched normal controls. Quantitative histomorphometric analysis of iliac crest biopsies were performed after intravital tetracycline double labeling in the patients and in 30 sex- and age-matched normal controls. No difference was found between patients and controls in albumin adjusted serum calcium levels. Serum phosphorus was significantly reduced (p less than 0.01) in the patient group whereas the urinary phosphorus/creatinine ratio was increased (p less than 0.01). The serum calcium phosphate product (S-CaxS-P) was significantly reduced in the patients (p less than 0.05). As expected, the urinary calcium/creatinine ratio was higher in the patient group than in the controls (p less than 0.001). Serum parathyroid hormone was normal. The histomorphometric analysis revealed signs of a moderate mineralization defect (reduced adjusted appositional rate (p less than 0.05), prolonged mineralization lag time (p less than 0.05) and prolonged formation (p less than 0.05)), and an increased extension of eroded surfaces (P less than 0.05) in the patients. The amount of trabecular bone and the balance between the thickness of bone resorbed and later formed per remodeling cycle and all other histomorphometric parameters were found normal in the patients. The combined histomorphometric and biochemical data are best explained by a primary renal phosphate leak leading to hypophosphataemia and a slight mineralization defect. The hypercalciuria may be explained by an enhanced renal production of 1.25-dihydroxyvitamin D secondary to the reduced serum levels of phosphorus. No signs of secondary or primary hyperparathyroidism were observed.
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PMID:A histomorphometric determination of iliac bone remodeling in patients with recurrent renal stone formation and idiopathic hypercalciuria. 271 52

In a female patient with primary hyperparathyroidism and disturbances of cardiovascular function clinical, biochemical and electrocardiographic as well as bone scintigraphic parameters were analyzed before and during therapy with verapamil (Falicard) for 7 month. Verapamil therapy resulted in decrease of the frequency of the supraventricular tachycardia, and, in higher doses (4 X 120 mg), also reduction of blood pressure, however, with dose limiting bradycardia and prolongation of PQ-time. Both the normalization of serum phosphate level, diminution of hypercalcemia of the ionized calcium and the decrease of hypercalciuria and increase of scintigraphic index as an expression of the decrease of high activity of bone metabolism suggest alterations of the calcium homeostasis. Under oral calcium load the constantly increased PTH values markedly could be suppressed indicating an alteration of intracellular parathyroid calcium set point. Discussion is performed with respect to possible protective metabolic and cardiovascular effects of calcium antagonists in this endocrine functional disorder.
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PMID:[Verapamil in primary hyperparathyroidism]. 276 97

The aim of this study was to investigate the pathogenesis of hypercalciuria in the Milan strain of genetically hypertensive rats. Dietary calcium intake and urinary and fecal calcium output were measured simultaneously with indices of sodium and phosphate homeostasis in male rats of the Milan hypertensive and normotensive strains. In addition, urinary calcium and creatinine excretion rates, calcium, phosphate and creatinine serum concentrations, and bone calcium content were also measured in these rats after an overnight fast. Under fed steady-state conditions dietary calcium, sodium, and phosphate intakes, were similar in the two groups of rats, but hypertensive rats had twofold higher urinary calcium excretion and normal urinary excretion of sodium and phosphate. Fecal calcium output was slightly but significantly higher in the adult hypertensive rats while fecal sodium and phosphate excretion was normal. Because of increased urinary and fecal calcium loss, net calcium balance was significantly less positive in hypertensive than in control rats. Under fasting conditions hypertensive rats were confirmed to have hypercalciuria despite normal serum calcium concentrations and normal creatinine clearance. In accordance with balance data and fasting hypercalciuria, bone calcium content was found to be significantly reduced in hypertensive rats. These findings confirm that hypercalciuria in the Milan hypertensive rats is explained by an altered renal calcium handling; it is also associated with a slightly increased fecal calcium output and, therefore, with a less positive calcium balance and reduced bone calcium content.
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PMID:On the pathogenetic mechanism of hypercalciuria in genetically hypertensive rats of the Milan strain. 280 68

Although normal pregnant women are more hypercalciuric than women with calcium oxalate nephrolithiasis (243 +/- 23 mg/day vs. 194 +/- 5 mg/day), pregnancy is not an established stone-forming state and pregnant women do not exhibit pathological crystalluria. One hypothesis to explain their lack of overt stone formation and pathological crystalluria is that pregnancy does not raise urine supersaturation with respect to stone forming salts such as calcium oxalate or calcium monohydrogen phosphate (brushite) to levels as high as in stone forming women. To test this hypothesis, we studied eleven normal women during each trimester of pregnancy, and between six and eight weeks post-partum. During pregnancy, hypercalciuria occurs with unchanged urine volume, citrate and magnesium excretions do not increase proportionally with calcium excretion, and urine pH increases. Supersaturations with respect to calcium oxalate (CaOx) and brushite (Br) are as high as those of women with calcium nephrolithiasis. The lack of pathological crystalluria and stones during pregnancy is not due to a failure of supersaturations to increase; urinary potential for crystallization is as high as in patients with established stone disease.
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PMID:Gestational hypercalciuria causes pathological urine calcium oxalate supersaturations. 281 Oct 52

Renal ultrasonography was performed on 23 patients with X-linked hypophosphatemic rickets (XLH) and 11 patients with autosomal recessive vitamin D-dependent rickets (ARVDD). A pattern of increased echogenicity of the renal pyramids (ERP) was identified in 11/23 patients with XLH and 3/11 patients with ARVDD; this ultrasonographic finding has previously been associated with medullary nephrocalcinosis. Patients with XLH and ERP had significantly higher mean serum calcium and phosphate concentrations, more frequent episodes of hypercalcemia, and higher doses of oral vitamin D and phosphate during the first 3 years of therapy. Episodes of hypercalcemia were more frequent when patients received higher doses of vitamin D2 (greater than 4000 IU/kg/day) or 1,25-dihydroxycholecalciferol (greater than 40 ng/kg/day). Episodes of hypercalciuria were significantly increased at doses of greater than 20 ng/kg/day 1,25-dihydroxycholecalciferol. In patients with ARVDD, ERP was also correlated with vitamin D dose and frequency of hypercalcemia episodes. ERP was not associated with an elevation of serum creatinine or loss of urinary concentrating ability in either patient group.
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PMID:Nephrocalcinosis and its relationship to treatment of hereditary rickets. 282 87

The effects of glucocorticoids on calcium and bone metabolism were investigated in 11 children (aged 6 months to 13 years) who were treated with dexamethasone, prednisolone and depot-ACTH because of different disorders. Alkaline phosphatase activity and osteocalcin in serum, representing indices of osteoblastic bone synthesis, and urinary hydroxyproline in relation to creatinine in morning fasting urine specimens, an index of osteoclastic bone degradation, decreased by 53-61% from baseline (P less than 0.01), with a highly significant relationship of all 3 indices to each other. Additional influences of glucocorticoids were hyperphosphaturia due to decreased renal phosphate reabsorption not mediated by secondary hyperparathyroidism, as well as marked hypercalciuria. As the consequence of the present study the following prophylactic or therapeutic recommendations are given during steroid-treatment: 1. Approvement of the negative balance of calcium and phosphate by correcting the hypercalciuria with hydrochlorothiazide, and the hypophosphatemia with oral phosphate and 2. in elder children with osteoporosis, stimulation of the decreased osteoblastic bone formation by sodium fluoride.
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PMID:[Disorders of calcium and bone metabolism in glucocorticoid treatment]. 284 91


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