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)

The effect of long-term bisphosphonate (APD) treatment on the morbidity from bone metastases in breast cancer patients was studied in a controlled clinical trial. 131 patients were randomized between treatment with APD (300 mg/day orally) or control. Systemic treatment for breast cancer was left to the discretion of the physician. The distribution of cases according to age, receptor status and previous treatment was similar in both groups. Patients were examined at 3-month intervals, while bone scans and radiography of relevant lesions in the skeleton were performed every 6 months. After a median follow-up of 13 months, the morbidity in the treated group was significantly less than in the controls. This concerned the occurrence of hypercalcemia, bone pain and fractures, and the need for radiotherapy of osteolytic lesions. In this interim analysis, APD treatment more than halved the requirement for specific treatment of bone lesions. The treatment is simple and well tolerated at a relatively low dosage. A higher oral dose was precluded due to gastrointestinal toxicity. Because the effect of APD on skeletal morbidity was not complete, efforts should be made to develop more effective and less toxic bisphosphonates.
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PMID:Effect of long-term bisphosphonate treatment on morbidity due to bone metastases in breast cancer patients. 266 67

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

A 3-hour single intravenous infusion of aminohydroxypropylidene diphosphonate (APD) 45 mg was given to 25 patients with malignant hypercalcemia. There were seven patients with breast cancer, eight with lung cancer, and ten with a variety of other cancers. Twenty-four patients responded to a single APD 45 mg infusion, 18 of whom (75%) had falls in plasma calcium to below the upper limit of normal (less than or equal to 2.75 mmol/l). Of 15 patients who had severe hypercalcemia, i.e., plasma calcium levels greater than 3.5 mmol/l, 14 responded and 9 (60%) achieved normocalcemia. Five patients developed hypocalcemia. One patient with lung cancer developed spontaneously reversible acute dyspnea after APD which was considered to be an idiosyncratic drug reaction. Single short-duration infusions of APD 45 mg are very effective in correcting malignant hypercalcemia in the majority of patients and are particularly suitable for patients with pre-APD plasma calcium levels greater than 3.5 mmol/l, who are less likely to develop hypocalcemia.
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PMID:Single high-dose (45 mg) infusions of aminohydroxypropylidene diphosphonate for severe malignant hypercalcemia. 276 28

A case of severe hypercalcemia due to metastases to bone from a primary breast cancer is presented. The different drugs available for treating hypercalcemia are described, and the rationale for their use is discussed.
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PMID:The treatment of hypercalcemia associated with metastases to bone from primary breast cancer. 284 Jan 53

One hundred and forty-seven patients with hypercalcaemia and advanced breast cancer have been reviewed. One hundred and twenty-five (85%) had definite bone metastases but in 22 (15%) there was no radiographic evidence of skeletal involvement. Sixty-eight (46%) patients also had liver metastases. These were present in 15/22 (68%) without definite skeletal involvement and 53/125 (42%) with bone metastases (P = less than 0.05). In a series of 498 patients with first relapse in bone after primary treatment hypercalcaemia was more common after the development of liver metastases than in patients with disease remaining confined to the skeleton (31% v 15%; P = less than 0.001). A subsequent prospective biochemical study of 35 patients with hypercalcaemia suggested that a humoral factor was more pronounced in 18 with liver metastases. In this group renal tubular reabsorption of calcium was higher, serum phosphate and tubular reabsorption of phosphate lower, and cyclic AMP excretion was increased. The data suggest that there is an association between the presence of liver metastases and the development of hypercalcaemia in patients with breast cancer. The mechanisms by which liver involvement may contribute to the pathogenesis of hypercalcaemia are not known but could arise from either increased production or decreased clearance of a humoral factor.
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PMID:Hypercalcaemia and breast cancer--an increased humoral component in patients with liver metastases. 284 66

131 patients with osteolytic metastases from breast cancer were randomised to receive long-term oral treatment with aminohydroxy-propylidene-bisphosphonate (APD), 300 mg daily (n = 70), or to act as controls (n = 61) in a multicentre trial. Specific antitumour therapy was at the discretion of the clinician and variable. An interim analysis was made after a median follow-up of 13 months in the APD group and 14 months in the controls. There was a significant reduction in pathological fractures and severe bone pain in the APD group, and hypercalcaemia was prevented. Consequently the necessity for radiotherapy for skeletal complications was more than halved; the number of systemic therapy changes was also reduced. Gastrointestinal side-effects of APD led to a drop-out of 8% of patients. Oral supportive APD therapy is simple and convenient, and significantly reduced skeletal morbidity in advanced breast cancer.
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PMID:Reduced morbidity from skeletal metastases in breast cancer patients during long-term bisphosphonate (APD) treatment. 288 57

In this review different aspects of osteolytic bone metastasis of breast carcinoma including morbidity, pathogenesis, accompanying hypercalcaemia and treatment, are discussed. Bone metastases occur in many patients with breast cancer (percentages of up to 85% have been reported); although patients seldom die of bone metastases morbidity is pronounced. Literature data point out that humoral factors, such as prostaglandins and the recently described growth factors are of importance beside cell interactions between monocytes, lymphocytes, osteoclasts and tumour cells. Nowadays, no significance is attributed to parathyroid hormone (PTH) overproduction in this respect. The differential diagnosis between primary hyperparathyroidism and tumour-induced hypercalcaemia is not always easy biochemically; combinations of both do occur less frequently than has been assumed in the past. A new and promising line of investigations involves the growth factors, which can increase osteolytic bone resorption and may bind to epidermal growth factor (EGF) or PTH receptors, thus inducing some of the biological effects of PTH (including hypercalcaemia). Until recently it was exceedingly difficult to treat tumour-induced hypercalcaemia (TIH) (the acute condition). Since the availability of the bisphosphonates dichloromethylidene bisphosphonate (Cl2MDP) and 3-amino-1-hydroxypropylidene-1, l-bisphosphonate (APD) this treatment has become very simple. Preliminary results, derived from the literature, point out that bisphosphonate treatment might also be effective in providing long-term control.
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PMID:Osteolytic bone metastases in breast carcinoma pathogenesis, morbidity and bisphosphonate treatment. 294 9

Normocalcaemic breast cancer patients with progressive osteolytic bone metastases were treated with clodronate 1.6 g/day (17) or placebo (17) for 12 months. Bone pain, extension of bone metastases and formation of new osteolytic foci were reduced by clodronate, and development of severe hypercalcaemia was prevented. After withdrawal of treatment the patients were followed-up for at at least 12 months. New bone metastases developed in both groups. There were, however, less fractures and less hypercalcaemia in the clodronate than in the placebo group. The survival rate was higher in the clodronate group than in the placebo group. No haematological toxicity was observed in the clodronate group.
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PMID:Treatment of skeletal disease in breast cancer: a controlled clodronate trial. 296 55

We have studied the administration of both oral and intravenous dichloromethylene diphosphonate (Cl2MDP) in patients with hypercalcemia and/or hypercalciuria due to increased bone resorption in the setting of multiple myeloma (N = 16) or chronic lymphocytic leukemia (N = 1). The effectiveness of 1600 mg of oral Cl2MDP twice daily was studied in 14 subjects with refractory multiple myeloma, active osteolytic disease and either persistent hypercalciuria (urinary Ca greater than 200 mg per g creatine on a low Ca intake) or hypercalcemia (serum Ca greater than 11.0 mg/dl), in a double-blind, placebo-controlled, 16 week-long trial. Of the 12 patients who received Cl2MDP (2 died in the placebo phase), 11 had marked reductions in urinary calcium (P less than 0.001), which fell into the normal range in 9. Urinary hydroxyproline decreased significantly in 8. Eight of the 11 responders also appeared to have decreases in bone pain associated with Cl2MDP therapy. Similar results were found when this protocol was used in a study of 10 women with breast cancer metastatic to bone. In addition, intravenous Cl2MDP was studied in 12 patients with hypercalcemia of malignancy, of whom 2 had multiple myeloma and 1 had chronic lymphocytic leukemia (CLL) associated with extensive osteolytic bone destruction. We gave 2.5 mg/kg on the first treatment day and 5 mg/kg daily thereafter for up to six more days. Serum calcium fell to normal after a mean of four days in the three patients with hematologic malignancies as well as in eight of the nine with solid tumors. Both urinary Ca and OHP also declined significantly.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dichloromethylene diphosphonate action in hematologic and other malignancies. 296 56

In an attempt to analyze the pathological processes which lead to hypercalcemia in patients with multiple bone metastases, 23 advanced breast cancer patients with multiple bone metastases, three hypercalcemic patients with other malignancies and seven early breast cancer patients without any distant metastasis were studied. Of the 23 patients with advanced breast cancer, nine showed serum calcium levels higher than 10 mg/dl. In five of the nine hypercalcemic patients with advanced breast cancer, urinary cyclic AMP excretion was lower than 4 nmol/100 ml of glomerular filtrate (GF), indicating that the secretion of parathyroid hormone was suppressed. However, urinary cyclic AMP excretion was higher than 4 nmol/100 ml of GF in the other four hypercalcemic patients with advanced breast cancer and three hypercalcemic patients with other malignancies. In patients with higher urinary cyclic AMP excretion, fractional excretion of calcium (FECa) showed a negative correlation (r = 0.83, P less than 0.05) with urinary cyclic AMP. Parathyroid hormone immunoreactivity was not detected in any of six patients showing serum calcium levels higher than 11 mg/dl. These results suggest that in about a half of hypercalcemic patients with advanced breast cancer and multiple bone metastasis, there is a factor which increases urinary cyclic AMP and enhances calcium reabsorption in the kidney, but which is different from parathyroid hormone. This factor may facilitate retention of calcium mobilized into the circulation by bone metastases, and lead to hypercalcemia.
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PMID:Stimulation of calcium reabsorption observed in advanced breast cancer patients with hypercalcemia and multiple bone metastases. 298 61


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