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)

Five patients who had gross abnormalities of calcium and phosphorus metabolism due to long standing renal failure are described to illustrate the difficulties with the term "tertiary hyperparathyroidism". One patient who had unequivocal biochemical tertiary hyperparathyroidism was found histologically to have nodular hyperplasia of all four glands even though one gland weighed twice as much (12g) as the combined weight of the other three. Another patient was not hypercalcaemic but had all the other features of the condition including rapid onset of osteitis fibrosa, vascular calcification and a probable parathyroid adenoma, with hyperplasia of the three glands. The other three had hypercalcaemia only after a reduction in the plasma inorganic phosphorus due either to renal transplantation or aluminum hydroxide therapy. The bone histology of the five patients varied from severe osteomalacia to severe osteitis fibrosa. A consideration of the factors involved in causing hypercalcaemia in these patients and a review of the literature leads to the conclusion that the term tertiary hyperparathyroidism is often misleading and best avoided.
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PMID:What is tertiary hyperparathyroidism? 106 86

Twelve patients (median age 44.5 years) on CAPD, who had previously used a dialysate calcium concentration of 1.75 mmol/l (for a median time of 11.5 months) were started on a low calcium dialysate (LCD) with a calcium concentration of 1.25 mmol/l and followed up for 24 weeks. During the first eight weeks, no changes in the doses of oral phosphate binders were made and serum ionized calcium decreased from 1.30 +/- 0.02 (mean +/- SE) mmol/l to 1.17 +/- 0.02 (p < 0.0001) and serum PTH (1-84) rose from 68 (median, range 16-397) ng/l to 147 (70-449, p = 0.005). After week 8, increasing doses of calcium carbonate were used to achieve target calcium levels of 1.20-1.30 mmol/l. No aluminum-containing binders were used. Calcium carbonate doses were increased from 2.3 (median, range 0.75-12) g/d to 6.8 (3.8-15.0, p = 0.0004) and serum phosphorus concentrations decreased from 2.00 mmol/l (median, range 1.25-2.67) at 8 weeks to 1.61 (1.18-2.39) at 24 weeks (p = 0.023). Serum intact PTH(1-84) values remained elevated despite the gradually increasing serum calcium concentrations. Hypercalcemia was recorded in 20/36 (56%) of blood samples during a period of four weeks before the start of LCD, and such episodes were observed in 15/89 (17%) of samples (p < 0.001) on LCD during the period when calcium carbonate doses were increased. It is concluded that on LCD 1) the number of episodes of hypercalcemia was markedly reduced, 2) higher calcium carbonate doses could be used, and thus 3) the control of serum phosphorus improved.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:CAPD with low calcium dialysate and calcium carbonate: results of a 24-week study. 136 22

Theoretical and clinical studies suggest that reduction of PD fluid calcium to 1.25 mmol/liter allows administration of larger doses of calcium carbonate, improves phosphate control and obviates the need for aluminum gels in most CAPD patients, without increasing hypercalcemia or hyperparathyroidism. Hypermagnesemia can also be avoided by reducing PD fluid magnesium concentration to 0.25 mmol/liter. Although glucose is a safe, effective an cheap osmotic agent, it provides a short duration of ultrafiltration, and contributes to significant metabolic abnormalities. Amino acids and glucose polymer are potential alternatives to glucose, and early clinical studies are encouraging. The unphysiological concentration of lactate in PD fluids has been shown to have pathological consequences, and undoubtedly bicarbonate would be a preferable buffer. Manufacturing techniques are being developed to produce such a fluid. A fluid containing bicarbonate and the peptide glycylglycine (30:10 mmol/liter) gives a stable buffer with a pH of 7.35, but has only undergone animal studies so far. Glucose solutions have deleterious effects on the peritoneal membrane, particularly during episodes of severe peritonitis, and the high osmolality is toxic to peritoneal host defense cells. Prompt treatment of peritonitis, early removal of the catheter where necessary, and minimization of glucose exposure, may do much to lengthen the dialysis life of the peritoneum.
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PMID:Improved solutions for peritoneal dialysis: physiological calcium solutions, osmotic agents and buffers. 140 67

In order to prevent aluminum toxicity induced by the association of aluminum phosphate binder with 1 alpha(OH) vitamin D3 derivatives and the use of deferoxamine with its own hazards to diagnose and treat this toxicity, we have shown in 1982 that it was possible to replace the iatrogenic association of aluminum phosphate binder with 1 alpha OH vitamin D derivatives by oral calcium carbonate taken with the meals in order to bind phosphate and correct the negative calcium balance. This led to the disappearance of the crippling aluminic osteomalacia and adynamic bone diseases in our center. The effectiveness of CaCO3 without 1 alpha(OH)D3 derivatives in the control of hyperparathyroidism in dialysis patients has been proven by the appearance in four patients of our dialysis population of an histological idiopathic adynamic bone disease associated with relative hypoparathyroidism, and by the finding that more than 50% of our dialysis population treated by this sole treatment have plasma concentration of intact PTH below twice the upper limit of normal (that is, the threshold above which only significant histological osteitis fibrosa is observed). Besides the compliance problem, the limit of CaCO3 is the occurrence of hypercalcemia which occurs in about 8% of the measurements. Since calcium acetate binds twice as much phosphate for the same dose of elemental calcium as CaCO3, its use has been recommended. However, clinical experience has shown that in spite of the fact that half the dose of calcium element given as acetate does actually control predialysis plasma phosphate as well as CaCO3, the incidence of hypercalcemia is not decreased, probably because calcium availability at the alkaline pH of the intestine is much greater with Ca acetate. When hypercalcemia is frequent (and not explained by autonomized hyperparathyroidism, adynamic bone disease, overtreatment with vitamin D, granulomatosis or neoplasia) it is necessary either to decrease the dose of calcium and complete the necessary binding of phosphate by adding small doses of Mg(OH)2 or Mg carbonate, provided the dialysate Mg is decreased to 0.2 to 0.35 mmol/liter to prevent hypermagnesemia or to decrease the dialysate calcium (DCa) concentration. The decrease of DCa can be made either just when hypercalcemia occurs or on a systemic basis according to the amount of CaCO3 used and to the necessity of associating 1 alpha(OH) vitamin D3 derivatives.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Use of alkaline calcium salts as phosphate binder in uremic patients. 140 82

Renal osteodystrophy presents with a spectrum of histologic abnormalities. A new entity characterized by a marked decrease in bone turnover without osteoid accumulation, that is, adynamic bone disease, has recently emerged. This new form was thought to be primarily related to aluminum accumulation. Since aluminum-containing phosphate binders have been widely replaced by calcium salts, adynamic bone disease would be expected to disappear over time. However, not only is adynamic bone disease observed in the absence of aluminum intoxication, its incidence does not seem to have decreased. We conducted a retrospective study in 1,803 patients on chronic maintenance dialysis who were biopsied during the last 10 years and assessed the incidence of adynamic bone disease over time in an effort to elucidate the factors associated with its occurrence. Adynamic bone disease was first seen in 1984 in the laboratory. Its incidence increased gradually over the years and, in 1991, still affected approximately 20% of the patients. The primary factors associated with the occurrence of adynamic bone disease include: (a) aluminum accumulation which is currently found in 60% of the patients on chronic maintenance dialysis undergoing biopsies, (b) increasing age of the patients on dialysis, (c) diabetes, and, possibly, (d) chronic ambulatory peritoneal dialysis. The clinical relevance of adynamic bone disease deserves further study. At present, this entity is associated with a tendency towards hypercalcemia, aging of bone due to stunted bone remodeling, a condition which might be associated with impaired repair of physiologic microdamages, and accumulation of microfractures leading to mechanical incompetence and ultimately to higher risk of fractures.
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PMID:Risk of adynamic bone disease in dialyzed patients. 140 83

Calcium carbonate (CaCO3) is an effective phosphate (PO4) binder in uremics, and its use reduces aluminum (AI) intake. By maintaining high serum Ca2+ levels, it decreases serum parathyroid hormone (PTH) levels. Hypercalcemia, however, often limits the dosage. To evaluate the effects of a low Ca2+ peritoneal dialysis solution (PDS; 1.25 mmol/L) on calcium metabolism, the following were studied in continuous ambulatory peritoneal dialysis (CAPD) patients with hypercalcemia (six with high PTH levels, and high turnover bone disease [Group 1], and six with low PTH levels, and low turnover bone disease [Group 2] documented by bone biopsies): 1) serum Ca2+ and PO4 levels; 2) serum PTH levels; 3) serum AI levels; and 4) bone morphology. The follow-up was 12 months. In both groups, within the third month, there was a decrease in serum Ca2+. In Group 2, serum PTH increased, reaching the norm, and in Group 1 it further increased, exceeding the norm. Because in both groups serum Ca2+ was normal, it was possible to give oral CaCO3 (10.5 +/- 2.5 g/day) to control PO4 levels while stopping AI gels. This did not induce any increase in serum Ca2+, whereas serum AI fell significantly. In Group 1, to avoid a further rise of serum PTH, the low Ca2+ PDS was supplemented with calcitriol (mean 3.5 +/- 0.5 microgram/day); this was followed by a reduction in serum PTH with no increase in serum Ca2+ or PO4.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Low calcium peritoneal dialysis solution. Effects on calcium metabolism and bone disease in CAPD patients. 145 29

Control of phosphorus accumulation in chronic renal insufficiency is crucial to the prevention of secondary hyperparathyroidism and metastatic calcification. In early renal failure, calcitriol levels are normal and parathyroid hormone levels are elevated. The phosphorus levels are maintained in the normal range by the phosphaturia induced by hyperparathyroidism. In this situation, dietary phosphorus restriction increases calcitriol levels and suppresses parathyroid hormone secretion. As renal failure progresses into late stages, hyperphosphatemia is evident along with low levels of calcitriol and worsening hyperparathyroidism. Phosphorus restriction will not affect calcitriol concentrations, yet parathyroid levels may decline. During long-term dialysis, urinary excretion of phosphorus is usually minimal. Therefore, phosphorus balance is determined primarily by the net amount absorbed by the bowel and the quantity removed during dialytic therapy. Given an adequate diet, no form of conventional dialysis is able to fully compensate for the gastrointestinal absorption of phosphorus. Hence, compounds that bind phosphorus in the bowel are often necessary. With the realization that the use of phosphorus binders containing aluminum leads to aluminum accumulation and its sequelae: osteomalacia, dementia, myopathy, and anemia, other phosphorus binders have been evaluated. Calcium carbonate has been investigated the most thoroughly and is in wide use. It is inexpensive and contains a high percent of elemental calcium. However, it is only modestly potent in the binding of phosphorus, and large doses are often necessary to attain satisfactory control of phosphorus. This may lead to hypercalcemia. One approach to this problem is to decrease the concentration of calcium in the dialysate. Alternatively, a more effective phosphorus binder may be used. Calcium acetate has been shown in acute studies to have twice the binding capacity of phosphorus per calcium absorbed than calcium carbonate. Whether use of this compound decreases the incidence of hypercalcemia is unproven. Calcium citrate increases the gastrointestinal absorption of aluminum and offers no advantage over calcium carbonate. Other compounds, such as calcium ketoacids and calcium alginate, have not been extensively studied and are not generally available. The use of phosphorus binders containing magnesium in conjunction with a dialysate low in magnesium may be efficacious. Large doses of magnesium will cause diarrhea and thus limit its use as a single agent. Reasons for failure to control hyperphosphatemia include poor compliance, improper prescription of binders, poor dissolution rates seen with some generic brands of calcium carbonate, and the presence of severe hyperparathyroidism. Optimal control of serum phosphorus in dialysis patients should always be viewed in the context of adequate nutrition and protein intake.
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PMID:Hyperphosphatemia: its consequences and treatment in patients with chronic renal disease. 156 18

Parathyroid activity, bone aluminum (Al) metabolism, bone histology, and clinical bone disease were studied in 55 successfully grafted kidney recipients at transplantation (Tx) and after 1 yr of immunosuppression with a low dose corticosteroid and a high dose cyclosporin-A regimen. Symptoms of Al-related bone disease disappeared after Tx. Serum Al and stainable bone Al decreased. The rate of Al removal from the bone surfaces was independent of graft function (creatinine range, 62-415 mumol/L) and bone turnover. Osteoblast activity and bone formation rate increased, while mineralization lag time normalized. Indices of bone resorption remained elevated, indicating persisting hyperparathyroidism. Eighteen percent of the recipients had posttransplant hypercalcemia, most likely caused by incomplete involution of hyperplastic parathyroid glands, while 53% had normocalcemic hyperparathyroidism related to impaired graft function. Cortical thickness decreased, while cancellous bone volume remained stable after Tx; both indices correlated significantly at follow-up with their respective values at Tx. None of 46 radiologically examined recipients had aseptic bone necrosis 1 yr after Tx.
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PMID:Aluminum metabolism and bone histology after kidney transplantation: a one-year follow-up study. 156 61

The effects of calcium carbonate and aluminium hydroxide as phosphate binders were investigated in nine patients on chronic hemodialysis. Aluminium hydroxide, 1 g X 3, was given during four weeks followed by a period of four weeks without any phosphate binders and after this calcium carbonate, 2.5 g X 3, was introduced for four weeks. Calcium carbonate resulted in lowering of bioactive PTH in serum from 22.4 to 16.4 pM and a rise of serum calcitriol from 8.0 to 11.5 pg/ml with maintained control of phosphate and without significant difference in the calcium-phosphate product. Calcium in serum rose from 2.27 to 2.57 mM and mild hypercalcemia (less than 3.0 mM) in five of the patients could be controlled by dose reduction of calcium carbonate without losing control of serum phosphate levels. We conclude that calcium carbonate offers advantages as a phosphate binder compared to aluminium hydroxide in that it offers equal control of serum phosphate and elevates serum calcium which helps to control the hyperparathyroidism secondary to uremia.
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PMID:Serum concentrations of calcitriol and PTH in hemo-dialysis patients on treatment with calcium carbonate. 163 7

Due to toxic side effects of aluminum-containing agents for treatment of uremic hypophosphatemia, much interest has been focused upon aluminum-free phosphate binder alternatives. From results of experimental studies with calcium acetate, this salt has been suggested as a possible effective and safe phosphate binder. In the present study, calcium acetate was used during a mean of 11 months for serum phosphate control in 30 uremic patients previously treated with aluminum and/or calcium carbonate. Satisfactory control of serum phosphate was achieved during the study (mean phosphate concentration +/- SE: 2.15 +/- 0.12 mmol/l compared to prestudy 2.23 +/- 0.19 mmol/l). Mean serum concentrations of calcium, alkaline phosphatase and parathyroid hormone did not change significantly during the study. Serum aluminum decreased significantly (p less than 0.01). Moderate hypercalcemia was observed in 6 patients. Calcium acetate treatment was withdrawn in 2 patients due to gastrointestinal discomfort. It is concluded that calcium acetate seems to be an effective phosphate binder alternative with relatively few side effects.
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PMID:Calcium acetate used as phosphate binding treatment in uremic hyperphosphatemia. 168 Apr 30

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