UMLS:C0020437 - FACTA Search

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

We conducted a 7-month randomized, single, double, single-blind comparison of calcitriol (1,25(OH)2D3) with vitamin D3 in 22 hemodialysis patients to study the effects on the biochemical abnormalities associated with osteodystrophy. Calcitriol was given for 3 mo. All patients had initial prestudy calcium values less than or equal to 9.5 mg/100 ml, and phosphate values less than or equal to 4.5 mg/100 ml. Data were analyzed using the Normalized Trend Index (NTI). Calcitriol induced a rise in calcium (8.7 to 10.25 mg/100 ml) (p less than 0.001) and a fall in alkaline phosphatase (p less than 0.005), while D3 had no appreciable effect. The mean dose of calcitriol during treatment was 0.579 microgram/day while that for D3 was 706 IU/day. The effect on serum phosphate concentration was variable. Hypercalcemia as high as 13.2 mg/100 ml occurred in 2 of 13 patients on 1,25(OH)2D3, but in every instance promptly returned to normal with dose reduction. No other adverse effects were noted with therapy. We conclude that calcitriol reverses the biochemical abnormalities of osteodystrophy. Since its effects are rapidly reversed with discontinuation, the drug is probably safe as well as effective.
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PMID:Calcitriol in dialysis patients. 20 82

Renal handling of phosphorus was studied in the following groups of parathyroidectomized rats with maleate-induced Fanconi syndrome: 1) 6 rats receiving intravenous parathyroid hormone, 2) 6 rats receiving intravenous dibutyryl cyclic AMP (DBcAMP), 3) 6 rats undergoing volume expansion with saline, 4) 12 rats receiving intravenous 25 (OH)vitamin D3, 5) 12 rats with acute hypercalcemia induced by intravenous CaCl2, 6) 6 rats with phosphate deprivation, and 7) 6 rats receiving intravenous calcitonin. Parathyroid hormone and calcitonin failed to increase the urinary excretion of both cAMP and phosphorus. Likewise, DBcAMP failed to increase the urinary excretion of phosphorus. Extracellular volume expansion and hypercalcemia (serum calcium 12.9 +/- 0.7 mg/100 ml) did not alter the tubular reabsorption of phosphorus. In phosphate-deprived animals, the fractional excretion 0.16 +/- 0.05 (mean +/- SE) was lower than that in the control animals (maleate-treated without phosphate depletion), 0.46 +/- 0.04 (P less than 0.001). 25 (OH)vitamin D3 decreased the fractional excretion of phosphorus from 0.39 +/- 0.03 in the control (maleate-treated not receiving 25 (OH)vitamin D3) to 0.23 +/- 0.02 (P less than 0.001) in the experimental animals. The present study demonstrated an antiphosphaturic effect of 25(OH)vitamin D3 in experimental Fanconi syndrome; the mechanism of this action is not well understood.
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PMID:Antiphosphaturic action of 25 (OH) vitamin D3 in experimental Fanconi syndrome. 21 76

The early fine structural changes in the arteries of rats induced by excess vitamin D3 perorally or parenterally were essentially similar, except the latter had a more prominent toxic effect to the vascular wall. The ultrastructural features, incidental to calcification, included the appearance of increased ground substance with a separation of collagenous and elastic fibrils, and degenerative changes in smooth muscle cells. Atherosclerosis was greatly accelerated at the sites of vascular injury when cholesterol, cholic acid and thiouracil were added to the basal diet. Calcification was initially observed in relation to elastic fibrils or degenerated cells in the upper and middle layers of the arteries, although there were few such deposits in the thickened intima of the coronary arteries. Calcium deposition could not be a direct effect of hypercalcemia, but the functional activity of smooth muscle cells did seem to promote the mineralization of calcium and phosphate. Furthermore, vitamin D-induced sclerosis did not prevent intimal thickening of the arteries when vitamin D3 was withdrawn.
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PMID:Vitamin D sclerosis in rats. 22 74

The myopathy associated with vitamin D deficiency has not been well characterized, and it is not known if weakness is a result of a specific effect of vitamin D deficiency on skeletal muscle. Chicks were raised from hatching on a vitamin D-deficient diet, and by 3 wk of age were hypocalcemic and appeared weak. Tension generated by triceps surae during repetitive stimulation of posterior tibial nerve was significantly less than that developed by chicks given vitamin D(3) supplements (309 g tension/g wet weight of triceps surae, SD 60, for vitamin D-deficient chicks; 470, SD 77, for vitamin D(3)-treated chicks, P < 0.01). Histochemical and electron microscopic examination of skeletal muscles of these chicks showed no abnormalities, and there were no electrophysiologic evidences of motor nerve or neuromuscular junction dysfunction. The concentration of ATP in skeletal muscle of the vitamin D-deficient chicks (5.75 mumol/g wet weight, SD 0.17) was not significantly different from that in vitamin D-treated chicks (5.60, SD 0.50). There was no correlation between strength and serum calcium, serum inorganic phosphate, or skeletal muscle inorganic phosphate. Relaxation of tension after tetanic stimulation was slowed in the vitamin D-deficient chicks (20.6 ms, SD 1.7, vs. 15.4, SD 1.3, in vitamin D-treated chicks and 15.3, SD 1.0, in normal control chicks), and in vitro (45)Ca(++) transport by sarcoplasmic reticulum from the vitamin D-deficient chicks was reduced. Calcium content of mitochondria prepared from leg muscles of vitamin D-deficient chicks (24 nmol/mg mitochondrial protein, SD 6) was considerably lower than that of mitochondria from normal control chicks (45, SD 8) or from chicks treated with vitamin D for 2 wk or more (66-100, depending upon level and duration of therapy). Treatment of the vitamin D-deficient chicks from hatching with sufficient dietary calcium to produce hypercalcemia did not significantly raise skeletal muscle mitochondrial calcium content (31 nmol/mg mitochondrial protein, SD 7) and did not prevent weakness. These studies demonstrate objective weakness as a result of myopathy in vitamin D-deficient chicks, and provide evidence that vitamin D deficiency has effects on skeletal muscle calcium metabolism not secondary to altered plasma concentrations of calcium and phosphate.
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PMID:Skeletal muscle calcium metabolism and contractile force in vitamin D-deficient chicks. 22 25

Acute massive vitamin D overdosage occurred in a family after eating food cooked in a nut oil containing 5 million units of vitamin D3/ml. The plasma vitamin D was 55 and 60 i.u./ml in the father and mother respectively, and 9.6 i.u./ml in their 11-month-old infant (normal range, 0--1.6 i.u/ml). All the family presented with symptoms of hypercalcaemia and the infant responded quickly to prednisone. After steroids had failed to control the hypercalcaemia in the parents, neutral phosphate was successful, although necessary for 9 months. Before phosphate therapy it was shown that both parents were in strongly negative calcium balance, indicating that the vitamin D was mobilizing calcium from bone. Eleven years later all 3 patients are well but a renal biopsy in one of them shows persistent nephrocalcinosis.
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PMID:A family with massive acute vitamin D intoxication. 23 12

Urinary phosphate (Up) and urinary cAMP (UcAMP) excretion were determine in patients undergoing neck exploration for primary hyperparathyroidism in order to evaluate these parameters as indices of successful surgery. UcAMP fell below 1.5 micro mol/g creatinine in all 12 patients in whom single gland removal corrected hypercalcemia and in 0 of 3 patients in whom no parathyroid tissue was found. The mean time to drop below 1.5 was 2.0 +/- 0.8 h (mean /+- SD) from the time of parathyroidectomy. UcAMP fell below 1.5 in only 1 of 6 patients who had multiple enlarged parathyroid glands removed, irrespective of the outcome of surgery. Changes in Up excretion lagged behind UcAMP changes, so that within the time period studied Up fell to varying degrees in only 10 of 15 patients in whom hypercalcemia was corrected. A spurt in UcAMP excretion, possibly reflecting parathyroid hormone release due to manipulation of a parathyroid gland, occurred in 3 patients. The results suggest that an intraoperative fall in UcAMP below 1.5 predicts successful parathyroidectomy and that an intraoperative spurt in UcAMP may provide a clue to the location of abnormal parathyroid tissue.
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PMID:Urinary cAMP excretion during surgery: an index of successful parathyroidectomy in patients with primary hyperparathyroidism. 23 74

Three indices of circulating parathyroid hormone (PTH) activity were compared between two groups: the first a group of 23 patients from three large kindreds with autosomal dominant hypercalcemia without hypercalciuria [familial hypocalciuric hypercalcemia (FHH)] and the second a group of 64 patients with typical primary hyperparathyroidism (1HPT) manifesting comparable hypercalcemia. The group with 1HPT differed from normal with respect to plasma PTH 1HPT concentration (normal, less 0.2 ng/ml), urinary cAMP excretion per 100 ml glomerular filtrate (U cAMP/GF) (normal, 2.3 x/divided by 0.6 nmol/100 ml glomerular filtrate; mean, x/divided 1 SD), and renal tubular maximum of phosphate transport corrected for glomerular filtration rate (TMP/GFR; normal, 3.4 +/- 0.4 mg/dl; mean, +/- 1 SD). The group with 1HPT also diverged significantly from the group with FHH for all three indices: for PTH, 0.37 x/divided by .48 vs. 0.25 x/divided .46 (P less than 0.05); for UcAMP/GF, 4.3 x/divided by .53 vs. 2.6 x/divided .60 (P less than 0.0005); and for TMP/GFR, 2.0 +/- 0.6 vs. 2.6 +/- 0.7 (P less than 0.01). The between-group differences for all three indices were also significant after adjustment for their variation with serum calcium. However, only the difference in TMP/GFR remained significant after adjustment for covariance attributable to serum calcium concentration, age, and creatinine clearance. The group with FHH differed from normal for TMP/GFR but not for UcAMP/GF. However, analysis of changes in UcAMP/GF and serum calcium concentration around the time of parathyroidectomy in three patients with FHH suggested that the parathyroid glands contributed to the abnormalities of mineral homeostasis in at least one. It was concluded that higher serum concentrations of PTH do not account for the lower renal clearance of calcium and magnesium in FHH calcium concentration, the group with FHH showed indices suggesting lower circulating PTH activity than the group with 1HPT.
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PMID:Circulating parathyroid hormone activity: familial hypocalciuric hypercalcemia versus typical primary hyperparathyroidism. 23 92

Following an intravenous loading injection of 75 U.S.P. Units of Para-Thor-Mone (Eli Lilly and Co), seven conscious, non-pregnant, non-lactating Merino ewes were infused with a maintenance dose of the hormone at a rate of 4-75 U.S.P. units/min for 2 hr. The classical hypercalcaemia and hypophosphataemia of the non-ruminant was observed, but the hypercalcaemi- was only small. Plasma potassium concentration decreases, while there were no changes in plasma sodium, chloride or mangesium. The classical phosphaturic effect of the hormone was not observed, only trace amounts of phosphate being exreted throughout the experiment. Urinary excretion of calcium and magnesium decreased, urine flow and urinary excretion of sodium, potassium, chloride, bicarbonate and urine pH increased. Glomerular filtration rate was unaffected, but renal plasma flow increased. The concentration and secretion rate of salivary phosphate increased markedly. Changes in the other important salivary electrolytes (sodium, potassium, chloride, bicarbonate and hydrogen ion) also occurred, but it was difficult to separate primary from secondary effects of the hormone. Saliva flow rate increased transiently following hormone injection, but the effect was not sustained by the maintenance infusion.
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PMID:The acute effects of intravenous infusion of parathyroid hormone on urine, plasma and saliva in the sheep. 23 58

The prophylaxis and treatment of renal osteodystrophy are based on pathophysiological principles. Development of secondary hyperparathyroidism should be averted by early prevention of hyperphosphatemia through diet and phosphate ligants, and by normalization of the calcium balance through calcium supplements and vitamin D or its analogues. This treatment requires close clinical and laboratory control in order to avoid several hazards (hypercalcemia, hypophosphatemia, and refractory constipation). In cases with severe secondary hyperparathyroidism, subtotal parathyroidectomy is sometimes required. Nevertheless, in one such case this operation resulted in sudden hypoparathyroidism two years postoperatively.
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PMID:[Treatment of renal osteodystrophy: physiopathology and secondary effects]. 33 72

Four cases of wide-spread arterial calcifications and peripheral necroses developing after successful renal transplantation are presented. In two cases parathyroidectomy was performed to prevent progress of the peripheral ischemic ulcers. In one of these cases, this was followed by healing of the necroses. In the two other cases parathyroidectomy had been performed because of hypercalcemia in the post-transplantation period. Ischemic ulcers appeared in these patients during treatment with vitamin D and healed after withdrawal of this therapy. Prevention of uremic arterial disease might be obtained by early control of serum phosphate levels and by renal transplantation at an early stage of renal disease. Parathyroidectomy should be considered in the treatment of developing peripheral gangrene in uremic patients and renal transplant recipients. Also, there are obvious hazards connected with vitamin D therapy in these patients.
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PMID:Arterial disease with ischemic ulcerations in renal transplanted recipients. 35 7

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