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:C0153690 (bone metastases)
6,382 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Strontium nitrate Sr 87m bone scans were made preoperatively in a group of women with suspected breast cancer, 35 of whom subsequently underwent radical mastectomy. In 3 of the 35 (9%), the scans were abnormal despite the absence of clinical or roentgenographic evidence of metastatic disease. All three patients has extensive axillary lymph node involvement by tumor, and went on to have additional bone metastases, from which one died. Roentgenograms failed to detect the metastases in all three. Occult bone metastases account in part for the failure of radical mastectomy to cure some patients with breast cancer. It is recommended that all candidates for radical mastectomy have a preoperative bone scan.
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PMID:Preoperative bone scans. Use in women with early breast cancer. 117 64

Salmon calcitonin has been used for the management of acute hypercalcemia for the past several years. Unlike other hypocalcemic agents, it is effective within 2 hours after first dosing. This pharmacologic agent shows peak effect at 24-48 hours and has a duration of action of 4-7 days in most cases. Its effectiveness may diminish thereafter despite continuous administration (the so-called "escape phenomenon"). Salmon calcitonin has been shown to be effective in the management of acute hypercalcemia due to a variety of causes, and, because of its low toxicity profile, it may be administered to patients with congestive heart failure or azotemia. Salmon calcitonin is also an analgesic agent in patients with pain associated with bone metastases and may be used in conjunction with other hypocalcemic agents such as mithramycin, the bisphosphonates, or gallium nitrate to prolong the clinical response to more than 1 week. Salmon calcitonin is therefore effective and safe in the management of acute hypercalcemia.
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PMID:Salmon calcitonin in the acute management of hypercalcemia. 213 63

Gallium, a group IIIa metal, is known to interact with hydroxyapatite as well as the cellular components of bone. In recent studies we have found gallium to be a potent inhibitor of bone resorption that is clinically effective in controlling cancer-related hypercalcemia as well as the accelerated bone resorption associated with bone metastases. To begin to elucidate gallium's mechanism of action we have examined its effects on bone mineral properties. After short-term (14 days) administration to rats, gallium nitrate produced measurable changes in bone mineral properties. Using atomic absorption spectroscopy, low levels of gallium were noted to preferentially accumulate in regions of active bone formation, 0.54 +/- .07 microgram/mg bone in the metaphyses versus 0.21 +/- .03 microgram/mg bone in the diaphyses, P less than 0.001. The bones of treated animals had increased calcium content measured spectrophotometrically. Rats injected with radiolabeled calcium during gallium treatment had greater 45-calcium content compared to control animals. By wide-angle X-ray analyses, larger and/or more perfect hydroxyapatite was observed. The combined effects of gallium on bone cell function and bone mineral may explain its clinical efficacy in blocking accelerated bone resorption.
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PMID:Gallium increases bone calcium and crystallite perfection of hydroxyapatite. 302 92

Bone metastases are a major source of morbidity in patients with cancer. Previously, we found that gallium nitrate was a highly effective treatment for cancer-related hypercalcemia. Laboratory studies have shown that this drug inhibits bone resorption in vitro and that short-term treatment in vivo increases the calcium content of bone. We evaluated the clinical effects of gallium nitrate on biochemical parameters of increased bone turnover in 22 patients with bone metastases. Treatment with gallium nitrate for five to seven days caused a median reduction in 24-hour urinary calcium excretion of 66% relative to baseline measurements (P less than .01). Hydroxyproline (OHP) excretion was also significantly reduced (P less than .01). The greatest reduction in hydroxyprolinuria occurred in patients with high baseline excretion. Ionized serum calcium and serum phosphorous declined significantly after treatment (P less than .01 for each). Serum immunoreactive parathyroid hormone (PTH) increased significantly (P less than .01), as did serum levels of 1,25 (OH)2-vitamin D3 (P less than .05). Urinary phosphorous excretion and serum levels of 25-OH-vitamin D3 were not significantly changed. No major toxic reactions occurred as a result of this treatment. These results indicate that gallium nitrate significantly reduces biochemical parameters associated with accelerated bone turnover and that this agent may be useful for preventing pathologic conditions associated with bone metastases.
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PMID:Gallium nitrate inhibits accelerated bone turnover in patients with bone metastases. 380 70

Gallium nitrate was recently found to be effective treatment for resistant cancer-related hypercalcemia. In vitro and in vivo experiments have suggested that the drug directly inhibits calcium resorption from bone; however, the overall effects of gallium nitrate on calcium balance were unknown. We have completed metabolic balance studies in four patients who received this drug by prolonged infusion. All patients were in positive calcium balance while receiving the drug. Each patient also showed a substantial decrease in urinary calcium excretion. Serum phosphorus decreased in all four patients. There was no change in phosphorus, sodium, chloride, or magnesium balance or in creatinine clearance. We conclude that prolonged infusions of gallium nitrate reduce urinary calcium excretion and that the hypocalcemic effect of this drug is primarily due to inhibition of calcium resorption from bone. Thus, the drug may prove useful in reducing accelerated bone resorption in patients with bone metastases or chronic cancer-related hypercalcemia.
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PMID:Metabolic effects of gallium nitrate administered by prolonged infusion. 401 69

Hypercalcemia (HCM) occurs in 10-15% of all malignancies, predominantly in patients with solid tumors. This metabolic complication leads to significant morbidity and impairment of quality of life. Recent insights into the pathophysiology of HCM include an understanding of the role of parathyroid-hormone-related peptide and several cytokines secreted by tumors. The osteoclast plays a central role as the final common pathway through which these hormones and cytokines act to cause bone lysis. These findings have led to the development of new treatment strategies. Foremost among these has been the introduction of agents such as the newer bisphosphonates and gallium nitrate, which are potent inhibitors of osteoclast-mediated bone resorption. The clinician can now choose from an array of therapeutic approaches based on a consideration of the mechanisms of action, individual clinical circumstances, efficacy, toxicities and costs of available agents. In addition to their use in the management of HCM, non-toxic drugs that effectively inhibit osteoclast function, such as the bisphosphonates, are playing an emerging role in the palliative treatment of the more common clinical problems of painful lytic bone metastases and osteoporosis.
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PMID:The management of hypercalcemia of malignancy. 777 80

As the most common metabolic consequence of cancer, hypercalcemia of malignancy is often encountered in patients with solid tumors, most often lung, head and neck, and breast carcinomas. Since the clinical consequences of hypercalcemia of malignancy may be fatal, an understanding of its pathogenesis and skeletal-related factors that may lead to hypercalcemia is important in directing therapy. It is also important to have reasonable expectations and goals outlined before initiating therapy in an individual patient. Interventions aimed specifically at osteoclast inhibition normalize serum calcium levels while treating the final common pathway responsible for the disorder; these include calcitonin, plicamycin, gallium nitrate, and the bisphosphonates. An important consequence of the advent of antiresorptive therapy has been the initiation of clinical trials aimed at preventing skeletal-related morbid events from bone metastases. These trials may ultimately prove to be the most significant benefit of osteoclast inhibitor therapy for patients.
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PMID:Hypercalcemia of malignancy: pathophysiology and implications for treatment. 842 May 42

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

Gallium nitrate has been shown to be an effective treatment for patients with cancer-related hypercalcemia. Clinical studies have also suggested the drug may have considerably broader use in other diseases associated with accelerated bone loss including multiple myeloma, bone metastases, Paget's disease, and osteoporosis. The actions of gallium nitrate on bone are quite distinct from those of bisphosphonates. Preclinical studies show that gallium preferentially accumulates in trace amounts in metabolically active regions of bone. When present, gallium favorably alters the mineral properties to enhance hydroxyapatite crystallization and reduce mineral solubility. The drug also acts on the cellular components of bone to reduce bone resorption by decreasing acid secretion by osteoclasts. This effect appears to be mediated by inhibition of the ATPase-dependent proton pump of the osteoclast's ruffled membrane. Gallium does not inhibit the development or recruitment of osteoclasts to bone tissue, unlike many bisphosphonates that may induce osteoclast apoptosis. Together, these pharmacologic actions may yield a skeletal system with increased calcium and phosphate content and improved biomechanical strength. Gallium nitrate has potent antiresorptive effects on bone that can be achieved at considerably lower doses than are currently used for cancer-related hypercalcemia. Parenteral and oral formulations of gallium appear to have high activity in bone resorptive disorders, and thus development should be vigorously pursued in these diseases.
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PMID:The effects of gallium nitrate on bone resorption. 1277 54

Standard management of breast cancer metastatic to bone includes systemic chemotherapy and, if applicable, hormone therapy, as well as radiotherapy for control of pain or prevention of pathologic fractures. In addition, orthopedic surgical procedures are used to prevent or correct pathologic fractures in weight-bearing areas of the osseous skeleton. Inhibitors of osteoclast function, including bisphosphonates and gallium nitrate, have been shown in clinical trials to decrease bone-related complications. Consequently, bisphosphonates have become an integral part of the management of bone metastases from breast cancer. Improved understanding of the biology of osteoclastogenesis led to the identification of osteoprotegerin as a critical modulator of osteoclast activity. The clinical evaluation of several osteoprotegerin preparations has shown therapeutic effects as measured by significant reductions in biochemical markers of bone resorption. Monoclonal antibodies to RANK ligand and parathyroid hormone-related protein, as well as Src kinase inhibitors, are also currently under clinical evaluation.
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PMID:Novel approaches to the management of bone metastases. 1461 37


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