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)

Gallium nitrate was originally developed as an antineoplastic agent; however, further studies have revealed that this drug has extremely potent effects on turnover of bone, and that low doses can be used to reduce bone resorption. Like the bisphosphonates, gallium nitrate has been studied in both malignant and in nonmalignant conditions. The results of randomized double blind studies have suggested that this drug has superior clinical efficacy relative to etidronate, calcitonin, and pamidronate for the acute control of cancer-related hypercalcemia. In patients with Paget's disease, low doses of gallium nitrate reduce biochemical parameters of accelerated bone turnover, including urinary excretion of calcium, hydroxyproline, and urinary collagen cross-linked N-telopeptides. Preliminary studies showed similar effects in patients with bone involvement from a wide variety of tumor types. Based on this high degree of clinical potency revealed in clinical studies, two randomized Phase III studies have been initiated in patients with bone metastases from breast carcinoma and bone involvement due to multiple myeloma. Both studies employ cyclic therapy with low dose gallium nitrate (i.e., 40 mg administered as a subcutaneous injection once daily for 2 weeks, followed by 2 weeks off treatment, recycled monthly). The endpoints of both studies are to document reductions in time to "morbid skeletal events," such as palliative skeletal radiotherapy, stabilizing orthopedic surgery, or pathologic fractures, as well as decreases in pain and analgesic requirements and improvements in mobility and other aspects of quality of life. These trials should provide definitive evidence of whether this agent is safe and effective as a treatment for bone metastases.
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PMID:Gallium nitrate for the treatment of bone metastases. 936 36

Pamidronate (APD) is a potent inhibitor of bone resorption that is useful in the management of patients with osteolytic bone metastases from breast cancer or multiple myeloma, tumour-induced hypercalcaemia or Paget's disease of bone. After intravenous administration, the drug is extensively taken up in bone, where it binds with hydroxyapatite crystals in the bone matrix. Matrix-bound pamidronate inhibits osteoclast activity by a variety of mechanisms, the most important of which appears to be prevention of the attachment of osteoclast precursor cells to bone. In patients with osteolytic bone metastases associated with either breast cancer or multiple myeloma, administration of pamidronate together with systemic antitumour therapy reduces and delays skeletal events, including pathological fracture, hypercalcaemia and the requirement for radiation treatment or surgery to bone. Pamidronate generally improves pain control. Quality-of-life and performance status scores in pamidronate recipients were generally as good as, or better than, those in patients who did not receive the drug. Overall survival does not appear to be affected by pamidronate therapy. Tumour-induced hypercalcaemia also responds well to pamidronate therapy: 70 to 100% of patients achieve normocalcaemia, generally 3 to 5 days after treatment. Response durations vary, but are commonly 3 weeks or longer, In comparative studies, pamidronate produced higher rates of normocalcaemia and longer normocalcaemic durations than other available osteoclast inhibitors, including intravenous etidronate, clodronate and plicamycin (mithramycin). In most patients with Paget's disease of bone, intravenous pamidronate reduces bone pain and produces biochemical response. Serum alkaline phosphatase levels generally fall 50 to 70% from baseline 3 to 4 months after pamidronate treatment. Biochemical response may be prolonged. Pamidronate is well tolerated by most patients. Transient febrile reactions, sometimes accompanied by myalgias and lymphopenia, occur commonly after the first infusion of pamidronate. Other reported adverse events include transient neutropenia, mild thrombophlebitis, asymptomatic hypocalcaemia and, rarely, ocular complications (uveitis and scleritis). Pamidronate should be considered for routine use together with systemic hormonal or cytotoxic therapy in patients with breast cancer or multiple myeloma and osteolytic metastases. At present, pamidronate is the drug of choice for first-line use in the management of patients with tumour-induced hypercalcaemia. It is an effective treatment for Paget's disease and is the treatment of choice where oral bisphosphonates are not an option.
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PMID:Pamidronate. A review of its use in the management of osteolytic bone metastases, tumour-induced hypercalcaemia and Paget's disease of bone. 950 93

Based upon recent research, bisphosphonates have now attained a ranking as the first alternative to oestrogen replacement therapy in women with postmenopausal osteoporosis. The efficacy of these drugs has been clearly documented in recent years, particularly as a result of extensive clinical trials with alendronate. The studies have also confirmed the favourable risk/benefit ratio. The specific affinity of bisphosphonates for bone tissue has been recognized for many years, and explains the diagnostic use of radio-labelled species in skeleton scintigraphy. Bisphosphonates deposited in bone tissue reverse the osteoporotic process by inhibiting osteoclastic bone resorption. This mechanism also explains their role as the treatment of choice in patients with Paget's disease and cancer induced hypercalcaemia. In addition, the same drugs are useful adjuvants in the treatment of patients with multiple myeloma or bone metastases to lessen the pain and risk of fracture. A possible role of bisphosphonates in the management of cancer patients without detectable bone metastases or patients with rheumatoid arthritis has been discussed, but further research is needed in these areas.
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PMID:[Diphosphonates--pharmacology and clinical use]. 953 31

Lipoprotein(a) (Lp(a)) is a low density lipoprotein-like particle displaying strong atherothrombotic properties. Although the concentration of Lp(a) in plasma is under strong genetic regulation, there are emerging evidences that several other factors, such as hormonal disorders, acute phase, liver and renal failure may affect its metabolism. The aim of the present study was to investigate whether bisphosphonates, an effectual drug in the treatment of malignant hypercalcemia and Paget's disease of bone, known to induce a concomitant acute phase, may have a significant influence on Lp(a) concentrations. Nine subjects (four men and five women), with plasma Lp(a) concentrations in the range between 6.4 and 17.7 mg/dl, were subjected to a single intravenous infusion of bisphosphonates (7.5 mg of aminohydroxybutylidene and 5.0 mg of aminohydroxylidene), previously dissolved in 250 ml of saline. Lp(a), apo A-I, apo B, C reactive protein (CRP) and erythrocyte sedimentation rate (ESR) were measured at the baseline and after days one, two, four and seven. CRP, ESR and Lp(a) started to increase after two days from the treatment, reaching statistical significance after day two, four and seven, respectively. Apo B and apo A-I decreased significantly after days one and two, respectively. Although patterns and relative amounts of the increase of CRP were substantially different among the subjects studied, the increase of Lp(a) was more homogeneous; the peak of Lp(a) concentrations was reached only seven days after treatment in the group as a whole, in agreement with previous observations. In univariate regression analysis, significant correlations were found only between apo A-I and ESR, and apo A-I and Lp(a). The present study suggest that Lp(a) behaves as an acute phase protein. Besides, we observed a slight but significant decrease of apo A-I and apo B after administration of bisphosphonates.
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PMID:Modification of serum apolipoprotein A-I, apolipoprotein B and lipoprotein(a) levels after bisphosphonates-induced acute phase response. 956 59

Bisphosphonates (BPs) are pyrophosphate analogs in which the oxygen bridge has been replaced by carbon and diverse carbon side chains have generated a large family of compounds. Several are potent inhibitors of bone destruction (resorption) and are in clinical use for the treatment and prevention of osteoporosis, Paget's disease, hypercalcemia caused by malignancy, tumor metastases in bone, and other bone ailments. Selective action on bone is based on the binding of the BP moiety to the bone mineral. The molecular mode of action of BPs, which may differ from compound to compound, is unknown. However, at the tissue level, all BPs inhibit bone destruction and lead to an increase in bone mineral density by decreasing bone resorption and bone turnover. At the cellular level, the ultimate target of BP action is the osteoclast, the bone resorbing cell. In vitro evidence shows BP inhibition of osteoclast formation, via action on osteoblasts, and there is in vitro and in vivo evidence for BP inhibition of osteoclast activity. There is in vivo and in vitro evidence for increased apoptosis. The relative contribution of these various effects on the therapeutic action of BPs remains to be established. At the molecular level, it is not known if BPs act on a single or multiple targets. Enzymes in the cholesterol biosynthesis pathway and protein tyrosine phosphatases were shown to be inhibited by BPs.
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PMID:Mechanisms of action of bisphosphonates. 959 60

Association between primary hyperparathyroidism and Paget's disease of bone is extremely uncommon, despite the relatively high incidence of both entities. The mechanism of this association remains unknown. Dramatic changes in parathyroid function are found in patients with Paget's disease and, on the other hand, the evolution of Paget's disease is influenced by parathyroid functional disorders. We reviewed 175 patients with Paget's disease and 60 with primary hyperparathyroidism, followed during 10 years. We only found 5 cases with the association of the two diseases. Approximately equal number were male and female (ratio: 1.5/1) patients and the average age was 63.60 +/- 2.65 years. Hypercalcemia in Paget's patients, and in increase in alkaline phosphatase in post parathyroid adenoma surgery patients were the clues that suggested the presence of the second disease. Surgical treatment was indicated in 3 patients, and the others were treated with antiresorptive drugs. We also reviewed the cases published since 1934, comparing their diagnostic, clinical, treatment and evolution features with our own cases.
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PMID:[Association between Paget's disease and primary hyperparathyroidism]. 967 89

Bisphosphonates have clinical application in diseases associated with increased bone turnover that inhibit osteoclast-mediated bone resorption by direct and indirect actions on osteoblasts and macrophages. Bisphosphonates are the treatment of choice for Paget's disease of bone, in which they return to normal the increased rate of bone turnover and slow radiographic disease progression. The agents reduce hypercalcemia associated with malignancy, and may reduce bone pain and prevent radiographic progression of metastatic bone disease. In patients with postmenopausal osteoporosis, they prevent further bone loss and reduce fracture rates. The drugs also ameliorate osteoporosis associated with long-term corticosteroid treatment. Bisphosphonates are well tolerated; gastrointestinal disturbances are the most common adverse events. Potential bone mineralization defects that occur with first-generation bisphosphonates are not of concern with therapeutic doses of newer ones.
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PMID:The pharmacology and therapeutic utility of bisphosphonates. 969 51

Tumor-induced osteolysis or lytic bone disease is mediated by osteoclast activation. Osteoclasts can be activated directly by products produced by tumors or indirectly through other nonmalignant cells. By reducing osteoclastic activity, bisphosphonates inhibit bone resorption. Because these agents were shown to be effective in treating other diseases associated with increased bone resorption, including cancer-related hypercalcemia and Paget's disease of bone, studies were initiated to explore the use of bisphosphonates in patients with osteolytic bone metastases.
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PMID:Pharmacology and clinical efficacy of bisphosphonates. 981 37

Tumor-induced osteolysis or lytic bone disease is mediated by osteoclast activation. Osteoclasts can be activated directly by products produced by tumors or indirectly through other nonmalignant cells. By reducing osteoclastic activity, bisphosphonates inhibit bone resorption. Since these agents had demonstrated efficacy in treating other diseases associated with increased bone resorption, including cancer-related hypercalcemia and Paget's disease of bone, studies were initiated to explore the use of bisphosphonates in patients with osteolytic bone metastases. Recent, large, randomized, double-blind studies have shown the efficacy of these agents in reducing skeletal complications in patients with bone metastases from both breast cancer and multiple myeloma.
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PMID:Use of bisphosphonates in patients with metastatic bone disease. 983 35

Metastatic bone disease is a frequent cause of morbidity in advanced cancer patients with a subsequent high incidence of skeletal complications (fractures, hypercalcemia, spinal cord compression) and severe pain. The osteolytic process is mainly characterized by an osteoclastic activity of bone resorption and inflammatory activity provoked by various cytokines and prostaglandins. Bisphosphonates represent a new class of drugs with inhibitory activity on bone resorption and on inflammatory processes which revealed themselves to be efficacious in a series of clinical conditions such as tumour-induced hypercalcemia, Paget's disease, osteoporosis and metastatic bone disease. The aim of this review of the literature is to show the analgesic efficacy of the different bisphosphonates in phase III studies carried out on patients with metastatic bone disease. Medline and Cancerlit database from January 1984 to February 1998 have been considered. From the analysis of the published studies it appears that bisphosphonates and, in particular, intravenous Disodium Pamidronate, are not only able to slow down the progression of the disease and to reduce the onset of skeletal complications but also have an analgesic effect and the possibility of improving the quality of life, above all in patients with osteolytic metastases due to breast cancer and multiple myeloma. Bisphosphonates represent a further valid therapy to add to an already consolidated list of therapies such as radio, chemo and endocrine therapy, analgesic drugs, orthopaedic and physiatric in the pain management of patients with bone metastases. These drugs meet with the patients' compliance, are well-tolerated as well as having a good cost/efficacy profile. It still remains to be seen if the newer and more potent bisphosphonates such as Ibandronate and Zoledronate can be administered differently from the intravenous route such as by mouth or by patch which are readily accepted by the patient and, moreover, if these more potent drugs are able to prevent or delay the onset and/or the progression of bone metastases.
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PMID:The role of bisphosphonates in the treatment of painful metastatic bone disease: a review of phase III trials. 987 May 69


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