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

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

Pamidronate (disodium 3-amino-1-hydroxypropylidene-1,1-bisphosphonate pentahydrate, CGP 23339A, CAS 57248-88-1) has been show to provide a potent antihypercalcemic effect through the inhibition of calcium release from the bone. The time course study on the antihypercalcemic effect of pamidronate was performed using a rat hypercalcemia model induced by orally administered cholecalciferol. The onset of the antihypercalcemic effect was observed within 48 h after a single i.v. injection of pamidronate at 1 mg/kg and this effect was sustained for 19 days. The time course of the antihypercalcemic effect of pamidronate in combination with calcitonin was also examined in the same model. The onset of the antihypercalcemic effect was observed within 4 h after combination therapy with a single i.v. injection of pamidronate at 1 mg/kg and successive i.m. injections of calcitonin at 3.2 IU/kg and the effect was of sufficient duration. These results suggest that pamidronate has a pronounced effect in controlling hypercalcemia and provides a long-lasting effect by a single i.v. administration. Moreover, the use of pamidronate in combination with calcitonin may be useful when a quicker onset of action is required clinically.
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PMID:Effect of pamidronate in a rat hypercalcemia model induced by cholecalciferol. 132 74

We have conducted a randomized crossover comparative trial of a single-dose course of disodium (3-amino-1-hydroxypropylidene) bisphosphonate pentahydrate (pamidronate) and plicamycin in 48 patients with a first occurrence of tumor-related hypercalcemia. All patients had hypercalcaemia-associated symptoms and serum-calcium levels (corrected for total protein) greater than or equal to 2.80 mmol/l. Pamidronate and plicamycin were given concurrently with rehydration immediately after diagnosis of hypercalcaemia was made. Both agents lowered serum calcium levels significantly within 1 week, with 88% of the evaluable patients in the pamidronate group and 45% of those in the plicamycin group achieving normocalcemia (p less than 0.01). In the patients who received pamidronate, the duration of normocalcemia was longer (p less than 0.05) and there was a significant decrease in serum creatinine (p less than 0.05). Vomiting occurred in 8 of 22 evaluable patients (36%) who received plicamycin, but in none of 25 evaluable patients who received pamidronate (P less than 0.01). Phlebitis occurred at the infusion site in more of the pamidronate-treated patients (P less than 0.05). Hypocalcemia, which occurred in 8 of 25 evaluable patients (32%) in the pamidronate group and in 1 of 22 of those (5%) in the plicamycin group, was either clinically asymptomatic or mild, except in one pamidronate-treated patient. Overall, pamidronate was found to be more effective and better tolerated than plicamycin, thereby confirming results of previous studies that showed pamidronate to be an effective, simple, and safe agent for the relief of the morbidity associated with tumor-related hypercalcemia.
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PMID:Plicamycin and pamidronate in symptomatic tumor-related hypercalcemia: a prospective randomized crossover trial. 145 38

Pamidronate (aminopropylidene diphosphonate, APD) is known to be an effective agent in lowering plasma calcium in cancer associated hypercalcaemia and in primary hyperparathyroidism. Combined therapy with pamidronate and calcitonin has proved efficient in the treatment of severe cancer-associated hypercalcaemia. A 66-year-old woman in hypercalcaemic crisis caused by primary hypreparathyroidism was successfully treated with this combined therapy. Albumin corrected plasma calcium was 5.26 mmol/l on arrival and the PTH level was very high. The combined therapy lowered the plasma calcium to normal and made it possible to perform elective parathyreoidectomy. A 5.8 g parathyroid adenoma was removed. It is recommended to consider combined therapy with pamidronate and calcitonin in the emergency management of hypercalcaemic crisis.
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PMID:[Combination therapy with pamidronate and calcitonin in hypercalcemic crisis caused by primary hyperparathyroidism]. 146 41

Pamidronate [aminohydroxypropylidene diphosphonate disodium (APD), disodium pamidronate] is an orally and intravenously active amino-substituted bisphosphonate which produces potent and specific inhibition of bone resorption at doses devoid of any significant detrimental effect on bone growth and mineralisation. Clinical trials indicate that pamidronate is effective in a variety of conditions characterised by pathologically enhanced bone turnover, including Paget's disease, hypercalcaemia of malignancy, osteolytic bone metastasis, steroid-induced osteoporosis and idiopathic osteoporosis. Pamidronate is highly effective in restoring normocalcaemia in patients with hypercalcaemia of malignancy associated with bone metastases but, in common with other bisphosphonates, is marginally less effective against humoral hypercalcaemia of malignancy. Comparative studies in this area have suggested that, at therapeutic doses, pamidronate has a more pronounced calcium-lowering action than etidronate (etidronic acid) and clodronate (clodronic acid) and provides a longer period of normocalcaemic remission. In Paget's disease arrest and, in some patients, reversal of the progression of osteolytic lesions by pamidronate is associated with a sustained reduction in bone pain, improved mobility and a possible reduced risk of bone fracture. In patients with osteolytic bone metastasis pamidronate reduces skeletal morbidity and slows the progression of metastatic bone destruction. Long term use of low-dose pamidronate in conjunction with conventional antiosteoporotic therapy may halt bone loss in steroid-induced and idiopathic osteoporosis. Pamidronate appears to represent a valuable addition to the drugs currently available for the treatment of symptomatic Paget's disease and cancer-associated hypercalcaemia, and shows promise in the treatment of osteolytic bone metastasis and osteoporosis.
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PMID:Pamidronate. A review of its pharmacological properties and therapeutic efficacy in resorptive bone disease. 170 54

Pamidronate has been demonstrated to be an effective agent in the treatment of cancer-associated hypercalcaemia. The dose regime, however, remains controversial. In this study 16 patients with cancer-associated hypercalcaemia were given 30 mg pamidronate by intravenous infusion and 16 were given 90 mg also by infusion. Groups were well-matched in terms of tumour types, bone metastases, pre-treatment serum calcium and creatinine, fasting urinary calcium/creatinine ratio, nephrogenous cAMP and the renal tubular threshold for phosphate reabsorption (TmPO4). The calcium lowering effect was similar in both treatment groups with nadir at day 6 of mean (+/- SEM) 2.48 mmol/l (+/- 0.06) in the 30 mg group and at day 9 in the 90 mg group of 2.51 mmol/l (+/- 0.03) (P less than 0.01). 10 patients in the 30 mg group and 8 in the 90 mg group were normocalcaemic at this point. Similarly when those patients with more severe hypercalcaemia (greater than 3.30 mmol/l, n = 7 in each group) were analysed separately, no significant difference was evident between the two groups. Urinary calcium/creatinine ratios fell to a nadir at day 6 in both groups of 0.33 (+/- 0.05) (30 mg group) and 0.37 (+/- 0.10) (90 mg group) (P less than 0.01). Follow-up results after the initial 9 days showed the mean time to relapse to be 38 days (range 18-90) in the 30 mg group and 34 days (11-105) in the 90 mg group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A comparison of low versus high dose pamidronate in cancer-associated hypercalcaemia. 177 37

After a 48-hour rehydration period 28 of 31 patients with cancer-associated hypercalcemia (serum calcium greater than or equal to 2.8 mmol/l) were treated intravenously with the bisphosphonate pamidronate. In three patients fluid repletion with 0.9% saline solution had already normalized serum calcium levels. Pamidronate was given in a single infusion on day 0, the dose of pamidronate adapted to the severity of hypercalcemia. If the serum calcium concentration was greater than or equal to 2.8 mmol/l on day 3, application of pamidronate was repeated. In all patients normocalcemia was restored; mean serum calcium decreased from 3.2 +/- 0.35 on day 0 to 2.15 +/- 0.32 on day 12. Hypercalcemia recurred in 11 patients, seven of these underwent pamidronate treatment according to the same therapeutical regimen. Normal calcium levels were attained in five cases. Side effects were of minor gravity: brief hyperthermia occurred in four patients and transient, asymptomatic hypocalcemia was noticed in nine cases.
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PMID:[Pamidronate in the treatment of tumor-associated hypercalcemia]. 179 92

Bisphosphonates are the treatment of choice in tumor-induced hypercalcemia. Pamidronate (Aredia) is effective in this indication, but few studies have addressed the question of its dose-effect relationship. Review of the published literature suggests that a clinically relevant dose-response relationship exists in the dose range 30-60 mg; most hypercalcemic patients will achieve normocalcemia with a dose of 60 mg pamidronate or more. More recent publications have reported the emerging role of bisphosphonates in the treatment of malignant osteolytic bone disease. Several non-randomized studies have shown beneficial effects from continuous administration of clodronate or pamidronate, though the magnitude of such effects was moderate. Two dose escalation trials with pamidronate showed that regimens with a dose intensity below 20 mg/week and single doses of 30 mg or less were ineffective. One randomized, prospective study compared pamidronate 60 mg with 90 mg given intravenously every 3 weeks. Both regimens showed a significant palliative effect. Patients treated with 90 mg had a greater reduction in pain intensity compared to those receiving 60 mg. Optimal schedules for different patient populations require further investigation.
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PMID:Progress in the treatment and palliation of advanced breast cancer: does the dose of pamidronate determine its effects? 753 93

Bisphosphonates are analogues of inorganic pyrophosphate, a naturally occurring chemical in bone. In vitro and animal experiments demonstrated that these agents were effective inhibitors of bone resorption. Subsequently they were applied to a variety of clinical problems in which increased bone resorption was an underlying feature of the pathology. In 1971 etidronate became the first bisphosphonate shown to inhibit bone resorption in humans when it was given to patients with Paget's disease. Subsequently this agent was also found to be useful in treating the hypercalcemia of malignancy. At the present time cyclic etidronate therapy is also used for the prevention of bone loss in patients with osteoporosis and for the prevention of heterotopic ossification in spinal cord-injured patients and in patients after hip replacement. Newer bisphosphonates are generally more potent than etidronate and do not produce a severe mineralization defect as do higher doses of etidronate. Pamidronate and clodronate are highly effective in the management of Paget's disease, hypercalcemia due to malignancy and immobilization, metastatic bone disease, and hematologic malignancies affecting bone. They are also promising agents for the prevention of osteoporosis. Alendronate, risedronate, and CGP 42446 are highly potent bisphosphonates that look very promising for the treatment of all disorders of bone resorption. It is fortunate that adverse reactions are not a prominent feature of bisphosphonate use. The main side effects are nausea and abdominal discomfort, mainly with oral use, a transient increase in bone pain in patients with Paget's disease, and an acute-phase reaction (fever, myalgia, mild leukopenia) in patients receiving aminobisphosphonates. The evolution of bisphosphonate therapy should be considered one of the major therapeutic events of the past 25 years. Future research should define the optimum use of these agents.
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PMID:Bisphosphonates in the treatment of disorders of mineral metabolism. 767 Oct 99

The purpose of this study was to investigate the effects of pamidronate, a second generation bisphosphonate, on the change in calcium homeostasis in patients with tumor-associated hypercalcemia. Eight patients with tumor-associated hypercalcemia received intravenous infusion of pamidronate (45 mg) and their high mean serum calcium concentration significantly decreased from 3.56 mmol/L to 2.62 mmol/L7 days after treatment. Serum intact PTH before treatment had been suppressed to below normal in all patients but returned to normal range in six patients within 7 days after treatment. Urinary PTH related peptide (PTHrP) excretion before treatment had been elevated in seven patients and then significantly increased further after pamidronate therapy. The serum bone Gla protein concentration was not apparently changed by the treatment. Pamidronate in serum was rapidly eliminated after the treatment and urinary excretion reached a plateau on the second day (13.8% of the administered dose), suggesting that the major portion of the infused dose had been distributed to the bone and other tissues. These findings suggest that pamidronate has a potent hypocalcemic effect and that PTHrP production in malignant tumors could be affected by pamidronate therapy.
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PMID:Pamidronate treatment in patients with tumor-associated hypercalcemia: pharmacological effects and pharmacokinetics. 770 89

Primary oxalosis is a rare congenital disorder characterised by widespread deposition of calcium oxalate crystals throughout the body. In this paper, we describe the development and treatment of hypercalcaemia associated with oxalosis in a child who had undergone renal transplantation, combined liver and kidney transplantation, and two liver retransplant procedures in the past 5 years. Hypercalcaemia occurred on three separate occasions in association with liver dysfunction due to graft rejection; renal function was not grossly impaired and serum intact parathyroid hormone levels were normal. Intravenous pamidronate therapy led to rapid normalisation of the serum calcium concentration on all three occasions. Iliac crest biopsy revealed large numbers of oxalate crystals in the bone marrow, many of which were associated with macrophages, identified using the antibody MAC 387. Bone histomorphometry demonstrated an increase in the percentage eroded surface but no increase in osteoid surface. These observations indicate that hypercalcaemia associated with oxalosis can occur in the absence of renal dysfunction and may result from excessive bone resorption, induced either directly or indirectly by macrophages surrounding oxalate crystals in the bone marrow. Pamidronate therapy was effective in restoring serum calcium to normal.
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PMID:Hypercalcaemia in primary oxalosis: role of increased bone resorption and effects of treatment with pamidronate. 774 85


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