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Query: UMLS:C0020437 (hypercalcemia)
 10,293 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study evaluates the use of calcium carbonate in chronic renal failure. Forty-eight patients (25 male, 23 female, mean age 54.3 years, six pre-dialysis. 12 CAPD, 30 haemodialysis) on phosphate restriction and requiring aluminum hydroxide (mean 2.4 +/- 0.8 g/day) to control serum phosphate, were converted to an equivalent dose of calcium carbonate (2.5 +/- 0.6 g/day). None received vitamin D analogues. Three months post-conversion there was a significant decrease in mean (+/- SEM) serum phosphate (1.86 +/- 0.08 versus 1.66 +/- 0.05 mmol/l P less than 0.01) and serum aluminum (28.3 +/- 5.4 versus 13.2 +/- 3.0 micrograms/l, P less than 0.0001): calcium/phosphate product was unchanged. Post-conversion there was an increase in serum bicarbonate, (20.6 +/- 0.5 versus 22.1 +/- 0.6 mmol/l, P less than 0.01) and serum calcium (2.32 +/- 0.02 versus 2.45 +/- 0.03 mmol/l, P less than 0.0001). No change in serum creatinine, alkaline phosphatase or parathormone occurred. No adverse effects were reported but nine (18%) patients became hypercalcaemic (2.7 to 2.93 mmol/l), eight of whom responded to dose reduction. Hypercalcaemia did not correlate with pre-conversion serum calcium, parathyroid hormone, alkaline phosphatase or aluminium. Calcium carbonate is an effective alternative to aluminium-based phosphate binders. It produces a beneficial increase in serum calcium and bicarbonate and a significant decrease in serum aluminium. Hypercalcaemia is unpredictable but is easily reversible in the majority of patients.
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PMID:The use of calcium carbonate to treat the hyperphosphataemia of chronic renal failure. 251 82

In order to evaluate the role of calcium metabolism in blood pressure regulation, 15 patients with primary hyperparathyroidism and 9 healthy control subjects were studied before and during angiotensin II infusion. The patients were re-investigated 2-5 months after removal of the parathyroid adenoma. Blood pressure, plasma levels of angiotensin II, aldosterone, arginine vasopressin, and atrial natriuretic peptide, and creatinine clearance were determined. Blood pressure and the blood pressure response to angiotensin II infusion were both the same before and after the operation. Angiotensin II and arginine vasopressin during basal conditions were significantly higher before than after the operation (angiotensin II: 17 (median) to 10 pmol/l, P less than 0.02; arginine vasopressin: 2.9 to 1.9 pmol/l, P less than 0.01), whereas aldosterone, atrial natriuretic peptide, and creatinine clearance were unchanged. During angiotensin II infusion, aldosterone, arginine vasopressin, and atrial natriuretic peptide increased to approximately the same levels before and after the operation. Blood pressure was not correlated to any of the hormones measured. Thus, patients with primary hyperparathyroidism have elevated plasma levels of angiotensin II and arginine vasopressin which may be compensatory phenomena counteracting volume depletion owing to a decreased renal concentrating ability induced by hypercalcemia, and owing to PTH-induced inhibition of renal sodium reabsorption.
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PMID:Elevated angiotensin II and vasopressin in primary hyperparathyroidism. Angiotensin II infusion studies before and after removal of the parathyroid adenoma. 252 5

Parathyroid hormone radioimmunoassay (RIA), specific for mid-region of the PTH molecule, has been proven to be extremely useful for the differential diagnosis of abnormal calcium metabolism. Recently, we developed a highly sensitive RIA for PTH, consisting of PTH antiserum (CH9), 125I labelled Tyr42 hPTH (43-68) and synthetic hPTH (1-84) as standard. This RIA cross-reacted with mid-region and carboxyl terminals of PTH. The within-assay and between-assay coefficients of variation were less than 4.6% and less than 8.6%, respectively. The limit of detection was 50pg/ml. The levels of serum calcium, serum phosphate, serum creatinine, Tmpo4/GFR and creatinine clearance (Ccr) in normal healthy volunteers aged 20 to 50 years remained almost constant and showed 9.24 +/- 0.34mg/dl (mean +/- SD, n = 242), 3.34 +/- 0.38mg/dl (n = 242), 0.870 +/- 0.121mg/dl (n = 242), 3.20 +/- 0.54mg/dl GF (n = 189) and 103 +/- 17ml/min (n = 137), respectively. All healthy volunteers (n = 326) had measurements of PTH in the blood. From 20 to 50 years, normal PTH mean was 374 +/- 97pg/ml (+/- SD, n = 237) and ranged from 180-568pg/ml, and from 60 to 80 years it was 471 +/- 133pg/ml (n = 34) and ranged from 205-737pg/ml. Since we found that PTH was markedly elevated above normal when Ccr was below 40ml/min, and PTH was very significantly correlated with the reciprocal of Ccr (r = 0.8996, P less than 0.001) using a multivariate analysis, all of the patients whose Ccr was higher than 40ml/min were selected and examined in the following studies. Serum PTH values completely separated patients with surgically proven primary hyperparathyroidism (1 degree HPT) from malignant associated hypercalcemia (MAH), and patients with idiopathic hypoparathyroidism (IHP) from pseudohypoparathyroidism (PHP), both of which were diagnosed by Ellsworth-Howard test. PTH values in all of the patients with 1 degree HPT (n = 23) were above normal, but those with MAH (n = 6) were below the normal or lower normal range. PTH values in patients with PHP (n = 7) showed above normal, while those with IHP (n = 5) were below the normal range. PTH was normalized in post operative status in all patients after parathyroidectomy (n = 6). These results indicate that this PTH RIA is extremely useful for the differential diagnosis in diseases with calcium abnormalities.
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PMID:[Clinical studies using a highly sensitive radioimmunoassay for mid-region and carboxy terminus of parathyroid hormone in normal, hypo- and hypercalcemic states]. 255 7

Fifteen patients with haematological malignancy and hypercalcaemia (mean +/- SEM calcium 3.44 +/- 0.14 mmol/l) received pamidronate (1 mg/kg) by infusion on 17 occasions (two patients were retreated 2 and 6 months after the first dose). After 4 days the plasma calcium had fallen to 2.84 +/- 0.14 mmol/l (P less than 0.001; n = 17), and in 10/17 episodes was less than 2.6 mmol/l. The mean fall was 0.61 mmol/l (95% confidence intervals 0.49-0.72 mmol/l). By 7 days a further decrease to 2.53 +/- 0.10 mmol/l had occurred, continuing to 2.38 +/- 0.11 mmol/l after 14 days. Plasma phosphate fell from 1.18 +/- 0.16 to 0.74 +/- 0.07 mmol/l at 7 days (P less than 0.001; n = 12). In 9 of the 17 episodes plasma creatinine initially exceeded 120 mumol/l (four of these greater than 300 mumol/l). This did not impair the response to pamidronate and there was no significant change in plasma creatinine following treatment. A single large dose of pamidronate was a simple, well-tolerated and very reliable treatment for hypercalcaemia complicating haematological malignancy, irrespective of renal function.
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PMID:One-shot high-dose pamidronate disodium (APD): effective, simple treatment for hypercalcaemia in haematological malignancy. 259 Nov 49

In order to obtain a useful screening index for primary hyperparathyroidism (PHPT), seven patients with PHPT and fifty-one patients with nonparathyroid hypercalcemia (NPHC) were studied retrospectively. Serum calcium, inorganic phosphate (IP), alkaline phosphatase, albumin (Alb), chloride (Cl), total protein, urea nitrogen and creatinine (Cre) were analyzed at the same time. Discriminant analysis using a stepwise variable select method was applied to these patients. A discriminant function (F 1) was derived from three laboratory tests; F 1 = -0.660 x [IP] + 0.142 x [Cl] + 0.564 x [Alb] - 14.4 (PHPT: F 1 greater than 0.641). F 1 had sensitivity of 100% and specificity of 72.5% (14 false positives) in diagnosing PHPT. Next, another discriminant function (F 2) was derived from PHPT and the false positive patients; F 2 = -2.61 x [IP] + 0.286 x [Cl] - 4.24 x [Cre] - 19.3 (PHPT: F 2 greater than 0.412). When F 2 was applied to positive patients by F 1, final sensitivity was 100% and specificity was 98%. This screening method was tested prospectively in fifty-six consecutive samples of hypercalcemia (PHPT 4, NPHC 52), resulting in sensitivity of 100% and specificity of 98%. It was proved that our screening method using two step discriminant functions was very useful to diagnose PHPT.
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PMID:[A screening index for primary hyperparathyroidism using discriminant functions]. 260 57

Carbetimer is a new antineoplastic agent whose limiting toxicity consists of dose- and treatment duration-dependent hypercalcemia. We examined the short-term effects of Carbetimer on calcium metabolism on days, 1, 3 and 5 during 11 5-day courses (6.5-8.2 g/m2/day given over daily 2-h infusions, q 3-4 weeks). Blood parameters were measured before and after Carbetimer, whereas urinary parameters were studied in three consecutive 2-h collections before, during and after Carbetimer infusions. Carbetimer effects were similar regardless of the infusion day. We found a consistent decrease of plasma ionized Ca (Ca2+) levels from 4.56 +/- 0.05 mg/dl before infusion to 4.28 +/- 0.06 mg/dl after infusion (P less than 0.001) whereas total serum Ca (corrected for protein levels) did not change. The fall of Ca2+ stimulated parathyroid function, as suggested by the increased plasma PTH levels, the decreased serum phosphorus and TmP/GFR index, or the increased urinary phosphate and cyclic AMP excretion. Carbetimer infusions also induced a marked increase in urinary Ca excretion (expressed as mg Ca/mg creatinine) from 0.093 +/- 0.011 before to 0.359 +/- 0.042 during and 0.177 +/- 0.031 after infusion (P less than 0.011). These changes were best explained by Carbetimer-induced Ca chelation that we confirmed in vitro by incubating Carbetimer at various concentrations in whole blood for 2 h at 37 degrees C, e.g. 2 mg of Carbetimer/ml lowered Ca2+ from 4.82 to 3.20 mg/dl without changing total Ca levels. On the other hand, a direct effect of Carbetimer on bone cannot be excluded since we observed an increase of serum osteocalcin levels from 2.0 +/- 0.3 to 2.5 +/- 0.4 ng/ml after infusion (P less than 0.001). In summary, the short-term effects of Carbetimer on calcium metabolism markedly differ from the long-term effects. They mainly consist of a dose-related calcium chelation leading to a decrease in Ca2+ levels, an increase in urinary Ca excretion and a stimulation of parathyroid function.
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PMID:Short-term effects of Carbetimer on calcium and bone metabolism in man. 263 64

Familial benign hypercalcemia, or hypocalciuric hypercalcemia, may be defined as a dominantly inherited disorder of calcium and magnesium metabolism, characterized by lifelong hypercalcemia and hypermagnesemia (both of variable degree), that usually is not associated with any symptoms, physical signs, reduced vitality, or ill health. Chondrocalcinosis, pancreatitis, gallstones, and neonatal primary hyperparathyroidism are possible rare associations, but findings differ among various studies. The biochemical findings are bland, with "normal" values for serum PTH by many techniques, modest hypophosphatemia, and other findings usually normal. A low calcium:creatinine clearance ratio is suggestive of, but not diagnostic for, FBH; urinary calcium excretion less than 100 mg per day may be just as helpful. The diagnosis should not be made casually or without family screening, because the findings in a given patient may be identical to those in mild primary hyperparathyroidism. The major rationale for careful evaluation is to diagnose the syndrome of FBH and to help affected family members avoid needless expense and the risk of further evaluation and treatment.
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PMID:Familial benign (hypocalciuric) hypercalcemia. A troublesome mimic of mild primary hyperparathyroidism. 267 70

Four kindreds with hereditary hypercalcaemia have been investigated. Thirty-seven of 72 subjects examined had hypercalcaemia with an autosomal dominant pattern of inheritance. Hypercalcaemic patients had total serum calcium of 2.91 +/- 0.12 mmol l-1. Serum parathyroid hormone (PTH) was normal while daily urinary calcium excretion was subnormal (below 2.5 mmol) in 45%. Comparison with an age-matched group of patients with primary hyperparathyroidism gave a small overlap regarding serum human PTH, urinary calcium and the ratio between calcium clearance and creatinine clearance. Family screening therefore is of diagnostic importance. Twelve subjects had been subjected to parathyroid surgery before the correct diagnosis was settled, none of the cases had an adenoma. Three patients became normocalcaemic and the others had persistent hypercalcaemia. One male non-abuser had seven episodes of acute pancreatitis before surgery and none after. The findings in all four kindreds are compatible with familial hypocalciuric hypercalcaemia (FHH). This hereditary disorder of unknown aetiology, therefore, also exists in Scandinavia. It is of importance to consider FHH in the differential diagnosis of hypercalcaemia, since this disorder usually has a benign prognosis if untreated.
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PMID:Familial hypocalciuric hypercalcaemia: a study of four kindreds. 270 1

Bisphosphonates, associated with rehydration, became the treatment of choice of malignant hypercalcemia when it became apparent that these compounds normalized plasma calcium in most cases within a few days and with almost no side effects, and that their effect was prolonged. Dichloromethylene bisphosphonate and aminobisphosphonate, especially APD, were shown to inhibit bone resorption with no noticeable inhibition of bone formation, and were highly effective in the long-term treatment of Paget's disease. APD was used in almost 300 patients with malignant hypercalcemia published in the literature and has been used in the medical clinic at Lausanne for several years. When given to 14 patients with malignant hypercalcemia at the dose of 25 mg/day until plasma calcium became normal for two consecutive days, APD had to be given for 4-11 days, severe hypercalcemia needing longer treatment than mild hypercalcemia (Adami et al. 1982). When given for a fixed period of 6 days, again plasma calcium normalized in all patients, whether APD was given i.v. (30 mg/day, ten patients) or orally (1200 mg/day, ten patients) (Adami et al. 1985). Further shortening of the treatment to one single infusion given over 24 h did not decrease the efficacy, as long as high enough doses were given (Blomqvist 1986). For severe hypercalcemia of above 3.5 mmol/liter 60-90 mg had to be given, while 30-45 mg was sufficient in milder cases (Body 1984). Otherwise, mild, transient, and asymptomatic hypocalcemia could occur. Normalization of plasma calcium went along with clinical improvement, sometimes even with correction of coma. Renal function was improved, even when the initial plasma creatinine levels were up to twice normal. Hypercalcemia could reoccur, but the duration of the effect of APD (1 week to several months) depended among other things on the dose administered. The decrease in plasma calcium was accompanied by a decrease in urinary calcium and hydroxyproline, both showing inhibition of bone resorption. In the case of recurrency, the treatment could be repeated with almost unaltered efficacy, except in end-stage cancer disease. When given to 13 normocalcemic patients with bone metastases from breast cancer, hydroxyproline and urinary calcium again decreased. Bone pains and radiologic signs of metastatic bone resorption also showed significant improvement, although these latter effects could also be explained by the antitumoral treatment, in this uncontrolled open trial.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Treatment of tumor-induced osteolysis by APD. 276 65

We have measured classic markers of bone turnover, serum alkaline phosphatase (sAP), urinary hydroxyproline/creatinine ratio (uOH-Prol/creatinine) and osteocalcin (sBGP), in two bone disorders characterized by an increase in bone remodelling, namely Paget's disease of bone and primary hyperparathyroidism (PHPT) and in two other bone diseases characterized by an increase in bone resorption without the concomitant increase in bone formation, hypercalcaemia of malignancy (HM) and involutional osteoporosis (IO). Serum BGP was increased in patients with Paget's disease of bone (6.7 +/- 3.1; n = 25; p less than 0.01) and in PHPT patients (8.3 +/- 5.3; n = 20; p less than 0.005) with respect to control patients (4.2 +/- 1.2 ng/ml; n = 12). Two subgroups of patients with high and normal levels of sBGP were found in both pathologies. Serum BGP was decreased in HM patients (2.1 +/- 1.7; n = 9; p less than 0.01) and in IO patients (1.9 +/- 1.4; n = 31; p less than 0.001). Two subgroups of patients with normal and low sBGP values were found in these two last disorders. A positive linear correlation was found between sBGP and sAP (y = 14.6x + 73.7; r = 0.44; p less than 0.05) and between sBGP and uOH-Prol/creatinine (y = 0.008x + 0.007; r = 0.67; p less than 0.001) in Paget's disease of bone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Osteocalcin and bone remodelling in Paget's disease of bone, primary hyperparathyroidism, hypercalcaemia of malignancy and involutional osteoporosis. 278 49


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