Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0376358 (prostate cancer)
 59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Various primary malignancies develop bone metastases, and the resultant skeletal complications cause significant morbidity/mortality in advanced cancer patients. Bone lesions associated with metastases are traditionally classified radiologically as either osteolytic or osteoblastic, and both types of lesions are associated with elevated levels of specific bone resorption markers. Some common aspects in the pathophysiology of bone lesions have prompted speculation that treatments for osteolytic metastases might also be effective for predominantly osteoblastic metastases, such as in prostate cancer. Potent osteoclast activity inhibitors, bisphosphonates have been successful in the treatment of osteolytic tumor bone disease. Zoledronic acid is the first bisphosphonate shown to have a direct clinical benefit in the treatment of osteoblastic bone metastases, reducing the number and rate of skeletal events in prostate cancer patients with metastatic bone disease. Moreover, the shorter, more convenient infusion time and similar safety profile of 4 mg zoledronic acid compared with 90 mg pamidronate presently make zoledronic acid the preferred therapy for treatment of bone metastases in patients with all types of advanced malignancy.
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PMID:Rationale for the use of bisphosphonates in osteoblastic and osteolytic bone lesions. 1465 42

The skeletal complications of metastatic bone disease secondary to advanced prostate cancer result in significant morbidity. In particular, pathologic fractures often require clinical intervention and are independent predictors of mortality in men with advanced prostate cancer. Before the introduction of zoledronic acid, bisphosphonates had been shown to provide pain palliation in patients with prostate cancer and bone metastases but were not efficacious in preventing skeletal complications. Zoledronic acid is the first bisphosphonate to show efficacy in reducing skeletal complications associated with the predominantly osteoblastic bone lesions characteristic of prostate cancer. In a large phase III randomized trial, zoledronic acid 4 mg every 3 weeks for 15 months significantly reduced the percentage of men who experienced a skeletal complication and reduced the incidence of pathologic fractures. Additionally, zoledronic acid 4 mg significantly decreased the annual incidence of skeletal complications, including fractures, and provided better control of bone pain compared with placebo. Adverse events with zoledronic acid were primarily limited to the flu-like, acute-phase symptoms previously reported with intravenous bisphosphonates, namely fever, myalgia, nausea, and anemia. These adverse events were mild to moderate and easily managed with supportive care. Zoledronic acid is the first and only bisphosphonate shown to reduce skeletal morbidity, including fractures, in patients with advanced prostate cancer and bone metastases.
Clin Prostate Cancer 2002 Dec
PMID:Zoledronic acid significantly reduces pathologic fractures in patients with advanced-stage prostate cancer metastatic to bone. 1504 89

Zoledronic acid (Zometa), a parenteral bisphosphonate, is an inhibitor of osteoclast-mediated bone resorption and is used in the management of patients with cancer. Zoledronic acid 4 mg is administered as an intravenous infusion over 15 minutes. In the treatment of bone metastases, zoledronic acid is the first and only bisphosphonate to demonstrate efficacy in patients with a broad range of tumour types and in multiple myeloma. In well-designed trials, a single 4 mg dose of zoledronic acid showed good efficacy in the treatment of patients with hypercalcaemia of malignancy. Zoledronic acid 4 mg was superior to pamidronic acid 90 mg, administered as a 2-hour infusion, as assessed by normalised serum calcium concentrations 10 days after administration. In conjunction with antineoplastic therapy, zoledronic acid was an effective long-term (up to 25 months) treatment for skeletal-related events in patients with bone metastases associated with multiple myeloma or solid tumours. In patients with bone metastases secondary to breast cancer or bone lesions from myeloma, zoledronic acid was at least as effective as pamidronic acid, based on assessments of skeletal-related events 25 months after the start of treatment. In addition, compared with pamidronic acid, the overall risk of developing skeletal complications, including hypercalcaemia of malignancy, was significantly reduced in recipients of zoledronic acid. Compared with pamidronic acid, zoledronic acid reduced the risk of patients with breast cancer developing a skeletal-related event by an additional 20%. Zoledronic acid was significantly more effective than placebo on most efficacy measures in patients with bone metastases secondary to other solid tumours (e.g. lung, prostate) and showed sustained efficacy for up to 15 months. Preliminary data indicate that its efficacy in these patients is sustained for up to 24 months. Estimates of the cost effectiveness of zoledronic acid in the treatment of prostate cancer were consistent with those of other bisphosphonates, and cost-effectiveness ratios were within limits considered acceptable economic value. Zoledronic acid was generally well tolerated, with a tolerability profile similar to that of pamidronic acid and placebo. As with other bisphosphonates, deterioration of renal function has occasionally been reported in patients receiving zoledronic acid and monitoring of serum creatinine is recommended during treatment. The efficacy of zoledronic acid is therefore well established in patients with hypercalcaemia of malignancy and, for up to 25 months, in the treatment of complications arising from metastatic bone disease in patients with multiple myeloma or solid tumours. The clinical profile of zoledronic acid compares favourably with that of pamidronic acid in patients with cancer and zoledronic acid has a more convenient administration schedule with the potential for better compliance. Thus, zoledronic acid is an effective bisphosphonate and is positioned to play an important role in the management of advanced cancer patients with bone metastases.
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PMID:Zoledronic acid: a review of its use in patients with advanced cancer. 1516 27

Bisphosphonate drugs are a group of pyrophosphate analogues which bind avidly to hydroxyapatite bone mineral surfaces and their major action is to inhibit osteoclast activity and thus bone resorption. In oncology, their role in metastatic bone disease is well established, but there is increasing interest in their potential role in preventing and treating cancer-induced bone loss and their possible anti-tumour effects. Metastatic bone disease is associated with a variety of skeletal complications, including pathologic fractures, bone pain, impaired mobility, spinal cord compression and hypercalcaemia. Intravenous bisphosphonates, particularly zoledronic acid, in conjunction with rehydration, are now established as the treatment of choice for hypercalcaemia. For treatment of bone pain, it has also been shown that bisphosphonates can be an effective supplementary approach to radiotherapy. In breast cancer and myeloma, bisphosphonates have now become part of standard therapy to treat and prevent skeletal-related events (SRE) and, until recently, treatment was largely with intravenous pamidronate or oral clodronate. However, large, randomised, multicentre trials using intravenous administration of the highly potent bisphosphonate zoledronic acid every 3-4 weeks have recently demonstrated a reduction of 20% in the risk of developing an SRE compared with pamidronate for patients with breast cancer. Moreover, these trials have demonstrated, for the first time, that a bisphosphonate significantly reduces the occurrence of skeletal events in hormone-refractory prostate cancer and in non-small cell lung cancer and a range of other solid tumours. Investigations into the potential of the relatively low potency bisphosphonate, clodronate, for the prevention of bone metastases in breast cancer have produced conflicting data. Further large, randomised studies with clodronate and zoledronic acid are planned and until the results are available it is not possible to identify a definite adjuvant role for bisphosphonates. Evidence is accumulating in vitro that bisphosphonates are also able to directly affect tumour cells, in addition to their effects on osteoclasts, with zoledronic acid being particularly potent. Over recent decades there has been a significant improvement in cure rates and survival times in certain cancers and the use of chemotherapy and hormone therapy has expanded greatly, leading to increasing numbers of long-term survivors who have received these treatments. Management of treatment-induced bone loss is therefore assuming a greater importance and bisphosphonates represent an attractive treatment option in such patients. Several placebo-controlled trials using oral clodronate, oral risedronate, intravenous pamidronate and intravenous zoledronic acid have all now demonstrated benefits in reducing the loss in bone mineral density.
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PMID:The role of bisphosphonates in breast and prostate cancers. 1516 99

Bisphosphonate therapy has become a standard of care for patients with malignant bone disease. In addition, preclinical and preliminary clinical data suggest that bisphosphonates may prevent cancer-treatment-induced bone loss (CTIBL) and the development of malignant bone disease in patients with early-stage cancer. Patients who receive adjuvant hormonal therapy for breast cancer or androgen-deprivation therapy for prostate cancer are at an especially high risk for CTIBL because of reduced estrogenic signaling. Oral clodronate (Bonefos; Anthra Pharmaceuticals; Princeton, NJ), oral risedronate (Actonel; Proctor and Gamble Pharmaceuticals, Inc.; Cincinnati, OH), and i.v. zoledronic acid (Zometa; Novartis Pharmaceuticals Corp.; East Hanover, NJ) have all demonstrated promise in preventing CTIBL in patients receiving hormonal therapy for breast cancer. Zoledronic acid has demonstrated efficacy with the longest between-treatment interval (3-6 months) and is currently being investigated in the Zometa/Femara Adjuvant Synergy Trials (Z-FAST and ZO-FAST in the United States and Europe, respectively). In patients receiving androgen-deprivation therapy for prostate cancer, i.v. pamidronate (Aredia; Novartis Pharmaceuticals Corp.) and i.v. zoledronic acid both have demonstrated significant benefits over placebo, but only zoledronic acid produced significant increases in bone mineral density compared with baseline values. Additionally, bisphosphonates have demonstrated antitumor activities in preclinical models, and clinical trials with oral clodronate suggest that bisphosphonates might prevent or delay bone metastasis in patients with early-stage breast cancer. Clinical trials are investigating the effect of zoledronic acid on disease progression in patients with breast cancer, prostate cancer, and non-small cell lung cancer. The results of these clinical trials should further define the clinical benefit of bisphosphonates in the oncology setting.
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PMID:Toward new horizons: the future of bisphosphonate therapy. 1545 28

Metastatic bone disease constitutes a major clinical problem. Skeletal complications are common and lead to significant morbidity, and patients live with metastatic bone disease for several years, increasing the prevalence of this problem. Effective management aims to reduce the incidence of skeletal complications and relieve symptoms, such as severe bone pain, which adversely affect patient mobility and quality of life. This article describes and discusses strategies for managing metastatic bone disease, with particularly emphasis on the role of the bisphosphonate ibandronate. Two case histories show the long-term efficacy and tolerability of oral ibandronate in the treatment of metastatic breast cancer. The third case history illustrates the benefits of rapid pain relief from an intensive, high-dose regimen of intravenous ibandronate in metastatic prostate cancer.
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PMID:Managing metastatic bone disease: three case studies. 1549 Mar 82

Following FDA approval and introduction into the clinic in the mid-1980s, PSA testing has become arguably the most versatile serum tumor marker in urologic oncology with clinical use for early detection (screening) of prostate cancer (PC), risk stratification for clinical staging, prognosis, intermediate biomarker for monitoring tumor recurrence, and more recently as an intermediate biomarker for assessing therapeutic response to antiandrogens, radiation therapy, and chemotherapy. PSA now routinely guides health care providers for the clinical management of PC over a wide range of clinical risk states for men at risk of PC, after local definitive therapy and after systemic therapy to prevent progression to metastatic bone disease, and to palliate men with hormone refractory prostate cancer (HRPC). To further assess the evidence that supports these clinical applications, this commentary reviews and critically evaluates the emerging body of new data focusing on several recently published seminal articles by D'Amico et al and Thompson et al, the new National Comprehensive Cancer Network 2004 recommendations for starting PSA testing at the age of 40 years old, the latest results from 2 phase 3 randomized, controlled trials of taxane-based regimens showing improved survival for men with HRPC, and the recent US FDA Public Workshop on Clinical Trial Endpoints in Prostate Cancer that helped to distill and synthesize the current state of the art and the progress toward validation of PSA metrics (eg, PSA velocity) as a surrogate end point (SE) for treatment efficacy with taxane-based regimens. Furthermore, several randomized, controlled chemoprevention trials in progress evaluating agents such as selenium and vitamin E in high-risk cohorts are well poised to confirm the validity of PSA as an SE for clinical efficacy for the prevention and progression of PC. Although there continues to be a need to validate better biomarkers before diagnosis of PC (more sensitive and specific) and after diagnosis to discern between indolent and aggressive forms of PC, it is very likely that some metric of PSA as a biomarker alone or as part of a panel of other serum proteomic markers or tissue-derived multiplex gene expression arrays will be around for years to come as a useful tool for risk stratification, early detection, prognosis, prediction, and as an SE of efficacy for prevention and treatment of PC.
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PMID:Evidence-based medical perspectives: the evolving role of PSA for early detection, monitoring of treatment response, and as a surrogate end point of efficacy for interventions in men with different clinical risk states for the prevention and progression of prostate cancer. 1554 92

Endothelin axis deregulation triggers a series of events that lead to a profound deregulation in cancer cells, including key tumorigenic cellular events such as proliferation, invasion, escape from programmed cell death, new vessel formation, abnormal osteogenesis and the alteration of nociceptive stimuli. Atrasentan is a novel agent that effectively targets this pathway and is able to inhibit and/or reverse several of those events. Biological and clinical activity in patients with prostate cancer has been demonstrated in a Phase III clinical setting by the suppression of markers of biochemical and clinical prostate cancer progression, and by a delay in time to disease progression, especially in patients with bone disease.
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PMID:Atrasentan: targeting the endothelin axis in prostate cancer. 1556 19

It is well accepted that tumor cells in the bone, especially from breast cancer, prostate cancer and multiple myeloma, can stimulate osteoclast formation and activity. Bisphosphonates are potent inhibitors of osteoclast-mediated normal and pathologic bone resorption. Besides their apoptotic and antiproliferative activity on osteoclasts, bisphosphonates can also exert similar effects on macrophages and tumor cells. Currently, it is unknown if this effect can be translated into clinical practice with regard to an effective adjuvant therapeutic regimen for high-risk patients with systemic recurrences following primary treatment of a given cancer. There are several new aspects that might extend the clinical use of ibandronate, a bisphosphate, in oncology: prevention of hypogonadal osteoporosis in men, palliative management of painful osseous metastases and adjuvant therapy of high-risk prostate cancer patients. Safety and tolerability are excellent for the oral and intravenous formulations, and ibandronate can even be safely applied in pre-existing renal insufficiency. The purpose of this review is to critically reflect the pharmacology and clinical efficacy of ibandronate in the management of tumor-induced hypercalcemia, osteoporosis and metastatic bone disease.
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PMID:Ibandronate: its pharmacology and clinical efficacy in the management of tumor-induced hypercalcemia and metastatic bone disease. 1560 28

Men with advanced prostate cancer are at high risk for developing bone metastases, which result in clinically significant skeletal morbidity. Treatments that prevent skeletal complications in these patients could considerably improve their quality of life. Therefore, this paper reviews the role of bisphosphonates in the treatment of hormone-refractory prostate cancer (HRPC). Published studies were identified through MEDLINE searches, review of bibliographies of relevant articles, and review of abstracts from scientific meetings. Metastatic bone disease in men with HRPC results in skeletal complications such as pathologic fractures, spinal cord compression, and debilitating bone pain. First- and second-generation bisphosphonates, clodronate and pamidronate, had transient palliative effects that were not durable and did not prevent skeletal events in these patients. A small open-label study of ibandronate demonstrated significant reductions in pain, but these results have not been confirmed in a larger, randomized, controlled trial. To date, zoledronic acid is the only bisphosphonate that has demonstrated a statistically significant reduction in skeletal morbidity in this patient population. In a large, multicenter, randomized, placebo-controlled trial, treatment of men with HRPC and bone metastases with zoledronic acid significantly reduced skeletal-related events and provided a durable reduction of bone pain over 24 months compared with placebo. Zoledronic acid is the only bisphosphonate that has demonstrated efficacy for preventing skeletal complications in patients with HRPC and bone metastases. Therefore, initiation of zoledronic acid therapy should be considered to prevent skeletal morbidity and improve the quality of life of these patients.
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PMID:The role of bisphosphonates in hormone-refractory prostate cancer. 1566 71


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