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)

The effect of the light-darkness cycle on the efficiency of the ultimobranchial and parathyroid glands in altering duodenal calcium transport and plasma and urinary concentrations of calcium was examined in the adult male frog (Rana pipiens). Frogs were unfed, but were allowed access to 0.05 M-CaCl2 in the surrounding medium after ultimobranchialectomy or parathyroidectomy. Calcium transport, as assayed by the everted gut-sac technique, was increased in ultimobranchialectomized frogs at sunrise, concomitant with acute hypercalcaemia and hypercalciuria. An opposite but chronic response was observed in parathyroidectomized frogs with intact ultimobranchial glands. The maximum response observed at sunrise occurred when the concentration of calcium in the plasma of control frogs was decreasing; the minimum response, which occurred 6 h after sunrise, was coincident with a diurnal peak in the concentration of calcium. Vitamin D3 (500 microgram/frog) enhanced calcium transport in ultimobranchialectomized frogs, which resulted in chronic hypercalcaemia and hypercalciuria. The results suggest that diurnal variations in the plasma concentration of calcium do not initiate ultimobranchial activity, but are a response to endocrine control synchronized with the transition from darkness to light.
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PMID:Diurnal variations in the influence of the ultimobranchial glands on calcium homeostasis in the frog (Rana pipiens). 21 89

Chronic administration of lithium salts is associated with hypercalciuria in the rat. To study the renal and extrarenal mechanisms of this phenomenon, we utilized balance and clearance techniques in rats pair-fed diets with or without Li2CO3 (0.5 meq/day per rat). Lithium induced hypercalcemia (mean +/- SE: 5.40 +/- 0.09 VS. 5.06 +/- 0.05 meq/liter) and hypercalciuria (Ca/creatinine = 0.28 +/- 0.04 vs. 0.13 +/- 0.03) only during feeding. When CaCO2 supplement to a calcium-deficient diet was abruptly withdrawn, hypercalciuria was abolished. However, polyuria and polydipsia persisted. No significant changes in serum phosphate, urine phosphate, sodium, pH, or citrate were observed. Chronic parathyroidectomy (PTX) also abolished this effect. During clearance studies, fasting excretion of calcium was similar between treated and control animals. Superimposed acute PTX resulted in comparable changes, hence arguing against primary changes in renal calcium reabsorption or changes in parathyroid hormone effects on the renal tubule. Thus, lithium produces absorptive hypercalciuria by a mechanism dependent on intact parathyroid glands and adequate diet calcium, but independent of urine sodium, phosphate, or pH. The active component of gut calcium transport may be involved, possibly via alterations of vitamin D metabolism.
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PMID:Mechanism of lithium-induced hypercalciuria in rats. 62 44

Administration of 500 mug vitamin D2 or D3 with ingestion of calcium to ultimobranchialectomized (UBX) or UBX-parathyroidectomized (PTX) frogs (Rana pipiens) induced hyerpcalcemia and hypercalciuria not apparent in control or PTX frogs. Calcium transport in isolated everted gut sacs was significantly elevated in UBX and UBX-PTX frogs but not in controls or PTX animals. Further, with Vitamin D3 in UBX frogs the duodenal segment had a greater capacity to transport calcium than the jejunal-ileal segment when compared to control, PTX or UBX-PTX frogs. Dihydrotachysterol2 and calcium ingestion also induced hypercalcemia, hypercalciuria and increased calcium transport in gut of UBX and UBX-PTX frogs, with no change seen in PTX or controls after 5 days. The inhibitory influence of the ultimobranchial glands on intestinal calcium transport apparently does not require the presence of the parathyroids and exhibits an inhibitory influence against a high calcium gradient across the duodenal segment.
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PMID:Effects of the ultimobranchial and parathyroid glands and vitamins D2, D3 and dihydrotachysterol2 on blood calcium and intestinal calcium transport in the frog. 107 5

Hundred thirty patients with surgical hypoparathyroidism were followed up. Group I involved 45 patients with mild and group II--85 patients with severe surgical hypoparathyroidism. A delay in vitamin D3 therapy was X +/- SD = 4.2 +/- 8.1 years. A delay in introducing vitamin D3 therapy correlated with the duration of hypoparathyroidism (r = 0.93; 8.9 +/- 9.6 years). Follow up period lasted for 15 years and was 4.3 +/- 3.8 years out of which the attempts to establish ultimate and effective dose of vitamin D3 lasted 1.8 +/- 2.4 years. Dose of vitamin D3 was adjusted 5 times, on the average. Effective daily dose was 4,200-22,500 IU (9,311 +/- 7,252) in group I, and 30,000-195,000 IU (51,385 +/- 32,978) in group II whereas maximum daily dose was 75,000 and 250,000 IU respectively (p < 0.001). Some patients were given 25-OH-D3 in daily doses of 50-225 micrograms or 25(OH)2-D3 in daily dose of 0.10-0.75 micrograms. Calcium oral doses of 400-1600 mg daily were administered to 115 patients. In case of high hypercalciuria (over 350 mg/24 h) hydrochlorothiazide (43 +/- 17 mg a day) or chlorthalidone (60 +/- 22 mg a day) normalized calciuria. Low phosphate diet and aluminium oxide (4.4 +/- 1.7 g a day) were more frequently used in group II. Period of time necessary to establish an effective dose of vitamin D3 is long in patients with surgical hypoparathyroidism. Several dose adjustments are required. Maximum daily vitamin D3 dose required for normocalcemia is approximately higher by 1/3 in the early period of the treatment than the effective maintenance dose. A decrease in diet phosphate content, inhibition of phosphates absorption in the gut or blocking increased calcium loss with the urine are necessary in some patients, only.
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PMID:[Postoperative hypoparathyroidism: long term observation and therapy]. 166 67

Vitamin D3 administered to patients with postoperative hypoparathyroidism increases calcium absorption from the gut and calcium blood levels but leads to hypercalciuria and may produce renal lithiasis. Thiazides decrease calcium excretion with the urine. Therefore, an effect of combined therapy with hydrochlorothiazide, vitamin D3 and calcium on hypoparathyroidism was investigated. Twenty one women were selected out of 135 patients with postoperative hypoparathyroidism. These women were constantly given vitamin D3 (30,000-225,000 IU daily) and calcium. Normocalcemia, hyperphosphatemia and hypercalciuria were noted before the treatment with hydrochlorothiazide. Therapy normalized hypercalciuria but did not change mean differences in calcemia, phosphatemia, magnesemia, blood alkaline phosphatase and phosphates and magnesium clearance factors. Hypercalcemia and necessity to withdraw hydrochlorothiazide together with change of either doses or preparation of vitamin D3 were noted in three patients, including one patient in whom both hypercalcemia and hypercalciuria with the symptoms of vitamin D3 poisoning were observed. The author suggests that combined therapy with hydrochlorothiazide, vitamin D3 and calcium prevents hypercalciuria but may require changes in vitamin D3 dosage and withdrawal of hydrochlorothiazide in some patients.
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PMID:[Effect of hydrochlorothiazide on calcium metabolism in postoperative hypoparathyroidism]. 196 53

Increased gut calcium absorption or reduced renal tubular calcium reabsorption have been alternatively reported in idiopathic hypercalciuria with kidney calculi. The present study aimed to investigate the handling of an exogenous calcium load in hypercalciuric stone formers to detect possible differences with regard to tissue calcium metabolism in vivo. A constant rate intravenous calcium infusion (0.2 mmol kg bodyweight per two hours) was carried out on six absorptives and six renals, defined according to the reported criteria, as well as on normal controls from clinical staff. Serum ionized calcium concentration were determined at regular intervals during the infusion and in the four hours after the end of calcium load. Over the same period, urinary calcium excretion was evaluated in timed urine collections. Absorptive and renal hypercalciurics had lower serum ionized calcium levels compared with normal controls at all experimental times, a finding that suggests a faster disappearance of calcium from the circulation. The total body calcium clearance calculated from the area under the curve of the serum calcium concentrations was enhanced in hypercalciuric patients (P less than .001). Although renal calcium excretion was higher in hypercalciurics, renal calcium clearance accounted for only a minor fraction of the total body clearance, suggesting that the reduced serum calcium levels found in the hypercalciurics could not be explained by the renal calcium leak. The enhanced total body calcium clearance found in hypercalciuric subjects is therefore due to an increased tissue calcium uptake. This finding provides indirect evidence of altered cell calcium handling in idiopathic hypercalciura with no difference between the so-called absorptives and renals in terms of the pathophysiologic mechanism.
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PMID:Altered kinetics of an intravenous calcium load in idiopathic hypercalciuria. 277 May 33

To examine the effects of mineralocorticoidism on calcium (Ca) absorption and to define the mechanism, rats received a high-salt diet and injections of vehicle or deoxycorticosterone acetate (DOCA). Net (44.2 vs. 31.4 mg/day) and percent Ca absorption (28.1 vs. 20.1%) was increased after 5 days of DOCA. This was associated with increased duodenal 45Ca uptake. Thus despite the hypercalciuria, Ca balance was similar. Although the hypercalciuria persisted chronically, the gut effects were sustained, which maintained normal ionized Ca, bone Ca, and Ca balance. Urinary cyclic adenosine monophosphate was elevated by DOCA. Compared with appropriate controls, neither DOCA alone nor polydipsia (elicited by dextrose) produced similar magnitudes of hypercalciuria as DOCA plus high-salt diet. These maneuvers also failed to increase Ca absorption. Neutralization of the metabolic alkalosis neither attenuated the DOCA-induced hypercalciuria nor abolished the Ca hyperabsorption. In vitamin D-deprived rats, the hypercalciuria but not the intestinal effects of DOCA were reproduced. Serum 1,25-dihydroxyvitamin D3 levels were increased during chronic DOCA treatment (224 vs. 139 pg/ml). These data best fit the hypothesis that increased Ca absorption is secondary to the calciuric effects of DOCA and high-salt diet and is mediated via the increased parathyroid hormone and 1,25-dihydroxyvitamin D3 activities.
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PMID:Chronic DOCA treatment increases Ca absorption: role of hypercalciuria and vitamin D. 301 51

Antacid ingestion may lead to side-effects related to their chemical composition. Aluminum hydroxide may cause the phosphate depletion syndrome even during short-term administration of high doses in patients at high risk, such as alcoholics. Long-term intake may lead to bone demineralization and to osteomalacia. Fluoride complexing in the gut and prevention of fluoride absorption may be an additional factor. The clinical relevance of aluminum absorption in patients with normal renal function is not clear. In contrast, in patients with renal failure, aluminum hydroxide ingestion may contribute to an increasing hyperaluminemia. Hyperaluminemia and tissue deposition of aluminum in these patients may contribute to the dialysis-associated encephalopathy. Magnesium hydroxide causes an alkalinization of the urine due to magnesium absorption and urinary excretion. Thus, in renal insufficiency, a life-threatening hypermagnesemia may develop if magnesium-aluminum-containing antacids are prescribed. The milk-alkali syndrome, rarely observed nowadays, may be caused by calcium carbonate- and sodium bicarbonate-containing antacids. Hypercalciuria and alkaluria predispose to nephrolithiasis. The possibility that these disturbances in mineral metabolism will develop in patients with normal renal function is unlikely unless there is an abuse of these "over the counter" antacids.
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PMID:Antacid therapy--changes in mineral metabolism. 629 43

Previous studies have shown that thiazide diuretic agents reverse secondary hyperparathyroidism and reduce circulating 1,25-dihydroxyvitamin D3 [1,25(OH)2D3] and intestinal calcium absorption rates in patients with idiopathic hypercalciuria of the renal-leak variety. We have investigated whether thiazides can reverse the secondary increase in serum parathyroid hormone (PTH) and 1,25(OH)2D3 levels or intestinal calcium absorption induced by feeding rats a diet low in calcium (LCD, 0.02% calcium) but adequate in phosphorus and vitamin D. We found that LCD increased circulating immunoreactive PTH [chow vs. LCD, 0.52 +/- 0.06 vs. 1.06 +2- 0.1 (SE) ng/ml, P less than 0.001], 1,25(OH)2D3 (chow vs. LCD, 101 +/- 15 vs. 325 +/- 38 pg/ml, P less than 0.001), calcium uptake by everted gut sacs from duodenum, ileum, and descending colon, and net calcium absorption by descending colon studied in Ussing chambers in vitro. Chlorothiazide (CTZ) prevented the increase in PTH during LCD (chow + CTZ vs. LCD + CTZ, 0.69 +/- 0.07 vs. 0.73 +/- 0.06, NS) but not the increase in 1,25(OH)2D3 (chow + CTZ vs. LCD + CTZ, 88 +/- 10 vs. 277 +/- 31, P less than 0.002) or intestinal calcium transport. The drug caused no change in serum 1,25(OH)2D3 or intestinal calcium absorption in rats fed normal chow. In rats given exogenous 1,25(OH)2D3 to stimulate intestinal calcium absorption, CTZ reduced urine calcium excretion greatly but did not alter intestinal calcium absorption.
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PMID:Effects of chlorothiazide on 1,25-dihydroxyvitamin D3, parathyroid hormone, and intestinal calcium absorption in the rat. 689 3

A series of in vivo experiments were designed to study the early effects of phosphate depletion on calcium metabolism in young adult (8-10 week old) rats with intact thyroid--parathyroid glands. Hypercalciuria occurred within 24 h of dietary phosphate deprivation. It was the consequence of mobilization of calcium stores from the exchangeable calcium pool of the diaphysis of bone. Increased net intestinal absorption of calcium also occurred early. This was at least in part due to decreased net intestinal secretion of calcium into the gut lumen. Thus the early onset of hypercalciuria and hypercalcemia associated with Pi deprivation in normal growing young rats is the combined result of increased net intestinal calcium absorption and increased calcium mobilization from bone.
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PMID:Calcium metabolism in young rats during early dietary phosphate deprivation. 718 55


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