UMLS:C0020437 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

The objective of the study was to evaluate the phosphate-binding efficacy, side effects, and cost of therapy of calcium ketoglutarate granulate as compared with calcium carbonate tablets in patients on chronic hemodialysis. The study design used was a randomized, crossover open trial, and the main outcome measurements were plasma ionized calcium levels, plasma phosphate levels, plasma intact parathyroid hormone (PTH) levels, requirements for supplemental aluminum-aminoacetate therapy, patient tolerance, and cost of therapy. Nineteen patients on chronic hemodialysis were treated with a dialysate calcium concentration of 1.25 mmol/L and a fixed alfacalcidol dose for at least 2 months. All had previously tolerated therapy with calcium carbonate. Of the 19 patients included, 10 completed both treatment arms. After 12 weeks of therapy, the mean (+/-SEM) plasma ionized calcium level was significantly lower in the ketoglutarate arm compared with the calcium carbonate arm (4.8+/-0.1 mg/dL v 5.2+/-0.1 mg/dL; P = 0.004), whereas the mean plasma phosphate (4.5+/-0.3 mg/dL v 5.1+/-0.1 mg/dL) and PTH levels (266+/-125 pg/mL v 301+/-148 pg/mL) did not differ significantly between the two treatment arms. Supplemental aluminum-aminoacetate was not required during calcium ketoglutarate treatment, while two patients needed this supplement when treated with calcium carbonate. Five of 17 (29%) patients were withdrawn from calcium ketoglutarate therapy within 1 to 2 weeks due to intolerance (anorexia, vomiting, diarrhea, general uneasiness), whereas the remaining 12 patients did not experience any side effects at all. The five patients with calcium ketoglutarate intolerance all had pre-existing gastrointestinal symptoms; four of them had received treatment with cimetidine or omeprazol before inclusion into the study. Calculations based on median doses after 12 weeks showed that the cost of the therapy in Denmark was 10 times higher for calcium ketoglutarate compared with calcium carbonate (US$6.00/d v US$0.65/d). Calcium ketoglutarate may be an effective and safe alternative to treatment with aluminum-containing phosphate binders in patients on hemodialysis who are intolerant of calcium carbonate or acetate because of hypercalcemia. However, care must be exercised when dealing with patients with pre-existing gastrointestinal discomfort. Due to the high cost of the therapy, calcium ketoglutarate should be used only for selected patients.
...
PMID:Randomized crossover study comparing the phosphate-binding efficacy of calcium ketoglutarate versus calcium carbonate in patients on chronic hemodialysis. 946 96

This article reviews the clinical, biological, radiological, and pathological procedures and their respective indications for the practical diagnosis of the following various histological patterns of renal osteodystrophy: osteitis fibrosa due to parathyroid hormone (PTH) hypersecretion: osteomalacia or rickets due to native vitamin D deficiency and/or aluminum overload; and adynamic bone disease (ABD) due to aluminum overload and/or PTH secretion oversuppression. Our advice regarding bone biopsy is to restrict it to patients with symptoms and hypercalcemia, especially those who have been previously exposed to aluminum. In other cases, we propose relying merely on the determination of the plasma concentrations of calcium, protide, phosphate, bicarbonate, intact PTH, aluminum, 25(OH)D3, and alkaline phosphatase (total and bony if hepatic disease is associated) to choose the appropriate treatment. Because of the danger of the desferrioxamine treatment necessary to chelate and remove aluminum, the suspicion of aluminic bone disease (osteomalacia or ABD) will always be confirmed by a bone biopsy. In the case of nonaluminic osteomalacia, correction of the vitamin D deficiency by native vitamin D or 25(OH)D3, and of the calcium deficiency and acidosis by alkaline salts of calcium and if necessary sodium bicarbonate are sufficient to cure the disease. In the case of nonaluminic ABD, the stimulation of PTH secretion by the discontinuation of 1alpha hydroxylated vitamin D and the induction of a negative calcium balance during dialysis by decreasing the calcium concentration in the dialysate will allow an increase of the CaCO3 dose to correct for hyperphosphatemia without inducing hypercalcemia. For hyperparathyroidism, i.e., plasma intact PTH levels greater than two- or four-fold the upper limit of normal levels (according to the absence or presence of previous aluminum exposure), the treatment will consist in increasing the CaCO3 dose to correct for hyperphosphatemia together with a decrease of the calcium concentration in the dialysate if the dose of CaCO3 is so high that it induces hypercalcemia. When the hyperphosphatemia has been corrected and there is still a low or normal corrected plasma calcium level, 1alpha(OH)D3 in an oral bolus 2 or 3 times a week should be given at the minimal dose of 1 microg. When the PTH level stays above 400 pg while hypercalcemia occurs and hyperphosphatemia persists, surgical subtotal parathyroidectomy is recommended or the injection of calcitriol into the big nodular hyperplastic parathyroid glands under sonography control in high surgical risk patients. Special recommendations are given for children.
...
PMID:Renal osteodystrophy in dialysis patients: diagnosis and treatment. 968 90

Current phosphate binders used in hemodialysis patients include calcium-based binders that result in frequent hypercalcemia and aluminum-based binders that result in total body aluminum accumulation over time. This investigation describes the use of a calcium- and aluminum-free phosphate-binding polymer in hemodialysis patients and compares it with a standard calcium-based phosphate binder. An open-label, randomized, crossover study was performed to evaluate the safety and effectiveness of sevelamer hydrochloride in controlling hyperphosphatemia in hemodialysis patients. After a 2-week phosphate binder washout period, stable hemodialysis patients were administered either sevelamer or calcium acetate, and the dosages were titrated upward to achieve improved phosphate control over an 8-week period. After a 2-week washout period, patients crossed over to the alternate agent for 8 weeks. Eighty-four patients from eight centers participated in the study. There was a similar decrease in serum phosphate values over the course of the study with both sevelamer (-2.0 +/- 2.3 mg/dL) and calcium acetate (-2.1 +/- 1.9 mg/dL). Twenty-two percent of patients developed a serum calcium greater than 11.0 mg/dL while receiving calcium acetate, versus 5% of patients receiving sevelamer (P < 0.01). The incidence of hypercalcemia for sevelamer was not different from the incidence of hypercalcemia during the washout period. Patients treated with sevelamer also sustained a 24% mean decrease in serum low-density lipoprotein cholesterol levels. Sevelamer was effective in controlling hyperphosphatemia without resulting in an increase in the incidence of hypercalcemia seen with calcium acetate. This agent appears quite effective in the treatment of hyperphosphatemia in hemodialysis patients, and its usage may be advantageous in the treatment of dialysis patients.
...
PMID:A comparison of the calcium-free phosphate binder sevelamer hydrochloride with calcium acetate in the treatment of hyperphosphatemia in hemodialysis patients. 1087 27

In patients with chronic renal insufficiency, phosphate retention is a major factor in the development of secondary hyperparathyroidism, renal osteodystrophy, and soft tissue calcification, and may contribute to progression of renal failure. Prevention of phosphate retention with dietary and pharmacological means, along with the administration of calcitriol, may prevent or reverse secondary hyperparathyroidism. With more-advanced renal failure, phosphate binders become necessary to maintain phosphate balance and to prevent hyperphosphatemia. Because of toxicity, aluminum-containing phosphate binders are no longer used. Currently, calcium-containing phosphate binders, such as calcium carbonate and calcium acetate, are the most widely prescribed. Although calcium salts eliminate the problems associated with aluminum toxicity, they often result in transient hypercalcemia, requiring discontinuation of calcitriol and the use of low-calcium dialysate. Several new non- aluminum- and non-calcium-containing phosphate binders are currently at various stages of development, and may provide an alternative to the currently used binders. It is unlikely, however, that the newer compounds will completely replace calcium salts, since mild hypercalcemia may be necessary in chronic renal failure patients to suppress parathyroid hormone production. Other areas of investigation must include the development of drugs to inhibit soft tissue and renal calcifications, and to enhance urinary phosphate excretion.
...
PMID:Phosphate binders for control of phosphate retention in chronic renal failure. 1050 31

Phosphate binders that contain aluminum or calcium are frequently prescribed to treat hyperphosphatemia in patients with end-stage renal disease (ESRD), but an accumulation of aluminum can lead to encephalopathy, aluminum-related bone disease (ARBD) such as osteomalacia, anaemia, and resistance to erythropoietin, and calcium accumulation can lead to hypercalcaemia. High phosphate concentrations are reduced in vitro and in vivo by a phosphate adsorption pill, which is synthesized by hydrolyzing ferrous sulfate in the presence of saccharides, to form an iron (III)-saccharide complex that is acid resistant and binds phosphate greater than iron (III) hydroxide alone. Under in vitro conditions, containing 3.26 mg P/dL, the iron (III)-sucrose complex showed the highest phosphate adsorption capacity at pH 2 with artificial gastric juice, 58.9 mg P/g binder. For the 7 day in vivo study, 0% (Group 1), 1% (Group 2), 4% (Group 3), and 8% (Group 4) iron (III)-sucrose complex was admixed into the rodent chow by weight and fed to 15 male Wistar rats. The weight and volume of the feces and urine, and the calcium, iron, and phosphorus excretions in the feces and urine samples were monitored for any signs of irregularity. Total urine outflow was collected during a 24-h period to determine the amount of phosphate recovered, which indicates the ability of the phosphate binder to reduce gastrointestinal phosphate absorption. The fecal iron excretion was significantly effected by the amount of binder ingested throughout the study for Group 2 (p < 0.001), Group 3 (p < 0.01), and Group 4 (p < 0.001). The urinary calcium excretion (mg/rat/24-h) significantly increased by the 7th day for Group 2 (p < 0.05) and Group 4 (p < 0.01) in comparison to the control. Finally, after 7 days, there was a significant drop in the urinary phosphorus levels (mg P/rat/24-h) in a dose dependent manner for Group 2: from 7.82 +/- 1.46 to 1.98 +/- 0.10 mg P/rat/24-h (102 mg P/dL/24-h; p < 0.05); Group 3: from 6.70 +/- 1.14 to 0.16 +/- 0.09 mg P/rat/24-h (6.0 mg P/dL/24-h; p < 0.01); and Group 4: from 8.25 +/- 0.67 to 0.04 +/- 0.01 mg P/rat/24-h (0.9 mg P/dL/24-h; p < 0.01). The results show that this new adsorbent might provide an alternative to conventional aluminum and calcium containing phosphate-binding agents for combating hyperphosphataemia.
...
PMID:Oral phosphate binders: phosphate binding capacity of iron (III) hydroxide complexes containing saccharides and their effect on the urinary excretion of calcium and phosphate in rats. 1051 89

In 4 of our patients on chronic dialysis, we were intrigued by the association of hypercalcemia +/- hyperphosphatemia and normal intact PTH, with anicteric cholestasis without cytolysis. This picture occurred in 2 patients after they resumed dialysis because of a transplant rejection and in a third one after discontinuation of corticosteroids, prescribed for an idiopathic thrombocytopenia. No patient was under calcitriol, CaCO3 therapy, and their hypercalcemia persisted on a low calcium dialyzate (1.25 mmol/l). Obvious etiologies of hypercalcemia were not found: vitamin D or A intoxication, hyperparathyroidism, aluminum intoxication, hemopathy, HIV infection. The hypothesis of a granulomatous disease was made and a liver biopsy was performed showing granulomas with giant epitheloid cells. In one case foreign material (silicon ?) was present in the macrophages. Extensive investigations for sarcoidosis, tuberculosis and mycosis were negative. In 2 cases the so-called "dialysis" granulomatosis actually occurred in transplanted patients, suggesting the role of a transplantation related factor (toxic or virus). In the last case HCV seroconversion was present. In the 4 cases, corticotherapy led to the disappearance of hypercalcemia and to an increase of PTH. Our patients had the biological pattern of low bone turnover disease (hypercalcemia and normal intact PTH) and bone biopsy performed in 2 showed osteomalacia or ABD without aluminum. The association of this pattern with cholestasis should evoke liver granulomatosis, which should be confirmed by a liver biopsy and lead to a treatment by corticosteroids. The masking effect of previous corticoid therapy for transplantation should be pointed out. In 2 cases serial monitoring of plasma calcitriol showed a relation between decreasing high normal calcitriol with prednisone and normalization of calcemia, suggesting the role of inappropriate synthesis of calcitriol by the granuloma. In conclusion, liver granulomatosis should be looked for in dialysis patients on the association of unexplained hypercalcemia and normal PTH with anicteric cholestasis, and confirmed by a liver biopsy. Although still of unknown etiology, its evolution is favourable under corticotherapy.
...
PMID:Liver granulomatosis is not an exceptional cause of hypercalcemia with hypoparathyroidism in dialysis patients. 1062 31

Uremic patients on maintenance hemodialysis are in positive phosphate balance. This is mainly the result of the complex elimination kinetics of phosphate during dialysis. Removal of phosphate is less than net dietary intake. Classical phosphate binders such as calcium carbonate, calcium acetate, and aluminum-based compounds are limited by side effects (hypercalcemia) and outright toxicity (aluminium). There have been numerous recent attempts to develop alternative phosphate binders, e.g., polyallylamine-hydrochloride (Renagel), lanthanum carbonate, and trivalent iron-containing compounds. The latter is based on old observations that iron salts may cause hyperphosphatemia and rickets in experimental animals and in patients. This idea has recently been taken up again, and effective inhibition of net intestinal phosphate uptake in non-uremic and uremic rats has been shown using simple iron salts (citrate, chloride, ammonium citrate) and complex compounds (cross-linked dextran and stabilized polynuclear iron hydroxide). In uremic rats, the latter compound reduces urinary phosphate excretion as an indicator of reduced intestinal phosphate uptake and has also been shown to be effective in subjects with preterminal renal failure. So far, no side effects or short-term toxicity has been observed. The compound appears promising and deserves further evaluation.
...
PMID:Phosphate binders on iron basis: a new perspective? 1063 63

Renagel is a novel, nonabsorbed, phosphate binding polymer free of aluminum and calcium. In hemodialysis patients, Renagel: lowers serum phosphorus levels; lowers intact parathyroid hormone levels; lowers calcium x phosphorous levels; lowers total serum and low density lipoprotein (LDL) cholesterol; and is safe and well tolerated (Bleyer et al., 1997; Chertow, Burke, Dillon, et al., 1998; Chertow, Burke, Goldberg, et al., 1997; Chertow, Burke, Lazarus, et al., 1997; Goldberg et al., 1998; Slatopolsky, Burke, Dillon, & The Renagel Study Group, 1999). Renagel treatment decreased total and low-density lipoprotein (LDL) cholesterol, but had no effect on high-density lipoprotein (HDL) cholesterol and triglycerides (Goldberg et al., 1998; Slatopolsky et al., 1999). This cholesterol-lowering effect of Renagel was most apparent in patients with LDL cholesterol of 100 mg/dl or greater at baseline; therefore, it may be beneficial for some patients. Longer-term studies in ESRD patients are required to determine the potential benefit of lipid lowering (Slatopolsky et al., 1999). The nephrology staff is responsible for delivering optimal patient care. This new drug allows for adequate control of phosphorous without incidence of hypercalcemia, or aluminum related problems.
...
PMID:Renagel: a new and different phosphate binder. 1063 8

Control of serum phosphorus continues to be of utmost importance in renal replacement therapy, due to the high prevalence of hyperphosphatemia in the dialysis population. Hyperphosphatemia has traditionally been associated with secondary hyperparathyroidism, soft tissue calcification, and renal osteodystrophy. Recent evidence implicates poor phosphorus control as an important factor in the development of cardiovascular calcification, cardiac disease, and death in patients with chronic renal failure. Dietary restriction of phosphorus, while an important factor in the control of serum phosphorus, has practical problems that limit its success in most patients. Aluminum was used in the past to inhibit phosphorus absorption, but its accumulation has serious, toxic effects on bone. Calcium-based binders have largely replaced aluminum; however, these binders are limited by the excessive amounts of calcium absorbed, which can frequently lead to positive calcium balance, suppression of bone turnover, and hypercalcemia. Calcium overloading is also associated with soft tissue and cardiovascular calcification. More recent strategies for managing hyperphosphatemia and renal bone disease include the use of nonabsorbed phosphate binders that are aluminum- and calcium-free and the development of vitamin D analogs that control parathyroid hormone activity with less calcemic effects. Future goals include defining optimal target levels of phosphorus, calcium, and parathyroid hormone and developing clinical approaches that will promote parathyroid glands, bone, and cardiac health.
...
PMID:Hyperphosphatemia: pharmacologic intervention yesterday, today and tomorrow. 1107 7

1. In the patient with renal insufficiency before dialysis, the phosphocalcic disorders appear insidiously. They are dominated by hyperparathyroidism which will be diagnosed on the initially yearly determination of plasma intact PTH as soon as creatinine clearance decreases below 60 ml/min, eventhough there is still no modification in plasma concentrations of calcium and phosphate. Its diagnosis should lead to initiate the therapeutic measures in order to prevent the irreversible thining of the corticals by endosteal resorption and later the occurrence of histological and radiological osteitis fibrosa favoring fractures. 2. Hyperparathyroidism prevention relies on two main measures: prevention of phosphate retention and hypocalcemia is implemented by progressive phosphate and protein restriction (from 1 g/kg/day when Ccr < 60 ml/min to 0.6 g/kg/day when Ccr < 20 ml/min) and administration of CaCO3 (1.5 g at lunch and dinner to better complex the phosphate) as soon as PTH is above normal; optimal vitamin D repeletion will be implemented by systematic supplementation of native vitamin D or 25OH vitamin D3 in order to bring P25OHD between 30-60 ng/ml (75-150 nmol/l) or more generally around the upper limit of the epidemiologic range of the laboratory; these measures should aim at maintaining plasma intact PTH in its optimal range variable with the degree of renal insufficiency: 0.5-1; 1-2.5 and 2-3 folds the upper limit of normal for creatinine clearance respectively at 60-30; 30-10 and < 10 ml/min. 3. Because of their hyperphosphatemic and hypercalcemic effect, 1 alpha-hydroxylated vitamin D derivatives will be regularly efficient and safe only when non-calcemic non-aluminic phosphate binder will be available and proven to be without side-effects. 4. Instrumental (surgical or by alcohol injection) parathyroidectomy should be considered when plasma intact PTH is > 5 to 7 times the upper limit of normal in the presence of hypercalcemia (> 2.60 mmol/l) and/or hyperphosphatemia (> 1.70 nmol/l) in spite of the above measures, the decision being reinforced by coexistence of bone radiologic abnormalities and metastatic calcifications. 5. Adynamic bone diseases are rare before hemodialysis in the absence of aluminum exposition by the drinking water or the aluminum-phosphate binders. In absence of aluminum it will be prevented by maintaining PTH in its optimal range. 6. Osteomalacia before hemodialysis is mainly due, in the absence of aluminum exposition, to vitamin D deficiency, hypocalcemia and acidosis. It is readily cured by physiological doses of native vitamin D or 25OH vitamin D3 bringing plasma 25 OHD above 16 ng/ml, in association with alkaline salts of calcium and if necessary of sodium bicarbonate.
...
PMID:[Renal osteodystrophy (2): its treatment in renal insufficiency before dialysis]. 1111 6

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>