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:C0376358 (prostate cancer)
59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To evaluate the efficacy of a long-acting preparation of medroxyprogesterone acetate for hot flash management, 3 men receiving androgen ablation therapy for prostate cancer and 15 women with a history of breast cancer were treated as part of clinical practice with three biweekly intramuscular injections of 500 mg depomedroxyprogesterone. A review of hot flash diaries and patient charts were completed to evaluate the effectiveness and tolerability of these injections for managing hot flashes. Treatment was associated with an approximate 90% decrease in hot flashes (95% CI 82-97%). Daily hot flash frequency decreased from a mean of 10.9 on the first day of treatment (95% CI 8.0-13.8 hot flashes per day) to a mean of 1.1 hot flashes 6 weeks later (95% CI 0.5-1.8 hot flashes) and to a mean of 0.7 hot flashes 12 weeks following therapy initiation (95% CI 0.1-1.2). Improvement in the hot flashes remained for months after discontinuing the injections in many patients. Reported side effects were minimal. This experience suggests that treatment with depomedroxyprogesterone may be an effective and well-tolerated option for the treatment of hot flashes.
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PMID:Depomedroxyprogesterone acetate for hot flashes. 1255 11

Androgen deprivation as a treatment for prostate cancer has evolved since the pioneering studies of Huggins and Hodges 60 years ago using surgical castration or estrogen treatments. The most common hormonal treatments today use injections of luteinizing hormone-releasing hormone (LHRH) agonists. The US Food and Drug Administration (FDA) has approved 5 LHRH agonist formulations for treatment of prostate cancer in the United States. Of these approved products, 3 involve different delivery systems for the LHRH superagonist leuprolide acetate. Sustained-release formulations of 2 distinct LHRH agonists, goserelin acetate and triptorelin pamoate, are also commercially available. This review focuses on new data on a novel formulation of leuprolide acetate (Eligard; Atrix Laboratories Inc., Fort Collins, CO) that incorporates a unique mixture of selected polymers and solvents to achieve sustained drug delivery after subcutaneous injection. The FDA has approved 1-month and 3-month formulations of Eligard, and 4-month and 6-month products are in development. In clinical trials, Eligard achieves reliable and sustained suppression of serum testosterone to castration levels (< or =50 ng/dL). Of the patients treated with the 1-month and 3-month formulations, 98% (115 of 117) and 94% (104 of 111), respectively, reached testosterone levels of < or =20 ng/dL. Breakthroughs, defined as testosterone levels >50 ng/dL after achievement of castration levels, occurred rarely at 0% (0 of 117) for the 1-month and at 0.9% (1 of 111) for the 3-month formulations in patients receiving Eligard. The degree of disease control and the adverse-events profile are commensurate with the effectiveness of the testosterone suppression; the incidence of severe hot flashes is actually lower than anticipated. Additional studies with these novel formulations are warranted.
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PMID:Eligard: leuprolide acetate in a novel sustained-release delivery system. 1266 84

The current trends in favor of androgen deprivation therapy (ADT) for nonmetastatic prostate cancer at the stage of biochemical recurrence or increasing prostate-specific antigen (PSA) raises the issue of exposing otherwise asymptomatic patients to potential side effects over the longer term. Some of these side effects can have deleterious effects on quality of life, and others may contribute to increased risks for serious health concerns associated with aging. Sexual side effects are the most well-recognized adverse effects from ADT and include loss of libido, erectile dysfunction (ED), and hot flashes. Loss of libido is distressing to many men, and they may not pursue treatments for ED. However, for those who do maintain sexual interest, various remedies are available. The incidence of hot flashes, which may not abate over the course of ADT, is close to 80%. Estrogens, progestin megestrol acetate, medroxyprogesterone acetate, venlafaxine, and cyproterone acetate have been shown to alleviate hot flashes and associated symptoms. Physiologic effects, including gynecomastia, changes in body composition (weight gain, reduced muscle mass, increase in body fat), and changes in lipids, are less commonly recognized as side effects of ADT. These may lead to an exacerbation of potentially more serious conditions, such as hypertension, diabetes, and coronary artery disease. Loss of bone mineral density, anemia, and hair changes also may occur. Additionally, both the diagnosis of prostate cancer and the hormonal therapy can cause psychological distress. These side effects need more systematic study in clinical trials. Physicians should be aware of far-reaching consequences of ADT and should incorporate strategies for preventing and managing toxicities into routine practice.
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PMID:Side effects of androgen deprivation therapy: monitoring and minimizing toxicity. 1266 85

Andropause, or the age-related decline in serum testosterone, has become a popular topic in the medical literature over the past several years. Andropause includes a constellation of symptoms related to lack of androgens, including diminished libido, decreased generalized feeling of well-being, osteoporosis, and a host of other symptoms. The andropause syndrome is very prominent in men undergoing hormonal ablation therapy for prostate cancer. Most significant in this population are the side effects of hot flashes, anemia, gynecomastia, depression, cognitive decline, sarcopenia, a decreased overall quality of life, sexual dysfunction, and osteoporosis with subsequent bone fractures. The concept of andropause in prostate cancer patients is poorly represented in the literature. In this article, we review the current literature on the symptoms, signs, and possible therapies available to men who cannot take replacement testosterone.
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PMID:Andropause: symptom management for prostate cancer patients treated with hormonal ablation. 1453 May 1

With the increasing indications for the use of androgen-deprivation therapy in the treatment of men with prostate cancer, side effects of the therapy deserve greater attention. Side effects such as hot flashes, decreased libido, decreased sexual function, and fatigue primarily affect the patients quality of life. Other side effects such as osteoporosis and changes in lipid profiles may also affect the patients overall health. Treatments such as estrogen, megestrol acetate, antidepressants, and bisphosphonates are useful in the management of many of the deleterious side effects of androgen deprivation. In addition, alternative management strategies such as intermittent androgen ablation and antiandrogen monotherapy may be useful in minimizing side effects caused by androgen ablation. Patients and physicians should be well aware of the potential side effects of androgen-deprivation therapy as well as the preventive and treatment strategies for these side effects in order to improve patients quality of life and health.
Clin Prostate Cancer 2003 Dec
PMID:Complications of androgen-deprivation therapy for prostate cancer. 1504 Aug 57

Androgen deprivation, as a form of treatment for prostate cancer, has been used for decades. Within the last decade, however, its use has increased significantly. Therefore, it is incumbent upon the physician to be familiar with the side effects associated with this treatment. Some of these side effects (eg, osteoporosis, changes in lipid profiles, and anemia) may be associated with significant morbidity, whereas others (eg, impotence, decreased libido, fatigue, and hot flashes) primarily affect the patient's quality of life. Prevention strategies and treatments exist for many of these side effects. In addition, alternative forms of antiandrogen therapy such as intermittent hormone ablation and antiandrogen monotherapy may be effective, with the added benefit of minimizing side effects. This review focuses on the wide range of side effects associated with androgen ablation as well as preventive and treatment strategies.
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PMID:Complications of androgen deprivation therapy: prevention and treatment. 1506 1

Androgen deprivation therapy (ADT) is indicated for the treatment of metastatic prostate cancer and locally advanced disease. In addition to sexual side effects, long-term ADT results in several other changes, including hot flashes; gynecomastia; changes in body composition, metabolism, and the cardiovascular system; osteoporosis; anemia; psychiatric and cognitive problems; and fatigue and diminished quality of life. This review discusses these complications of ADT and treatments aimed at reducing them. It is important for clinicians to anticipate these effects and to initiate measures to prevent or minimize them in order to maintain quality of life in prostate cancer survivors.
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PMID:Complications of androgen deprivation therapy in men with prostate cancer. 1506 32

Hot flashes are a significant complaint among many breast cancer survivors and many men undergoing androgen deprivation therapy for prostate cancer. Several therapeutic approaches are available to the suffering man or woman. Many of these individuals have tried nonpharmacologic and nonconventional approaches. However, most nonpharmacologic treatments have not been compared with placebo or were not more effective than placebo in prospective, randomized clinical trials. The most effective nonhormonal treatments for hot flashes include agents from the selective serotonin or noradrenergic reuptake inhibitor (SSRI/SNRI) family. Paroxetine, 10 mg/d, or venlafaxine, 37.5 mg/d, are reasonable initial dosages, and if symptoms do not improve within a week or two, the dosage can be doubled. Gabapentin appears to provide similar benefits, but direct comparisons have not been reported. Because of the strong association between gonadal hormones and breast and prostate cancer, the use of hormonal agents to treat hot flashes in these patients has been limited. However, such hormonal therapies as depomedroxyprogesterone acetate can be prescribed for an informed individual who experiences bothersome symptoms despite nonhormonal treatments.
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PMID:Management of hot flashes in breast cancer survivors and men with prostate cancer. 1516 82

Androgen deprivation therapy for prostate cancer is associated with several complications, including loss of libido, hot flashes, night sweats, psychological stress, osteoporosis, anemia, fatigue, loss of muscle mass, glucose intolerance, and changes in lipid profile. The natural history of prostate cancer while on such therapy is the attainment of an incurable androgen-independent state. Early diagnosis by prostate-specific antigen screening, longer life expectancies, and a penchant for immediate therapy pose a problem where clinicians have to balance the potential benefits of early hormonal therapy with the risks of development of these metabolic and psychological complications. Intermittent androgen deprivation offers clinicians a prospect to improve quality of life in patients with prostate cancer by harmonizing the benefits of androgen ablation with a reduction in treatment-related side effects and expenditure. In this review we discuss the challenges and opportunities of this mode of therapy and shed light on some of the underlying molecular mechanisms.
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PMID:Intermittent androgen deprivation therapy for prostate cancer. 1516 84

A phase I clinical trial was conducted to determine the safety, pharmacokinetic parameters, and efficacy of orally administered isoflavones (genistein and daidzein, potential cancer chemotherapeutic agents) over a 3-mo period in men with prostate neoplasia. Twenty men, ages 40 and above, with stage B, C, or D adenocarcinoma of the prostate were treated with a multiple-dose regimen of a soy isoflavone formulation (delivering approximately 300 or 600 mg/day genistein and half this much daidzein) for 84 days. The delivered dose of isoflavones was more than 10-fold higher than that typically taken by prostate cancer patients. In men with prostate cancer, relatively minor side effects of chronic isoflavone treatment were observed including some estrogenic effects (breast changes, increased frequency of hot flashes). Serum dehydroepiandrosterone was decreased by 31.7% (P = 0.0004) at the end of treatment. Except for those subjects whose prostate-specific antigen (PSA) values were below 0.4 ng/ml, subjects had a history of increasing PSA levels prior to the trial. This increase continued during the trial both while on soy isoflavones and after treatment was discontinued. On average the rate of rise accelerated after soy isoflavones were discontinued, but that difference did not attain statistical significance. Genistein and daidzein were rapidly cleared from plasma and excreted in urine. Pharmacokinetic data for chronic dose administration were similar to single-dose administration for the isoflavones investigated except that we observed slightly longer circulation time for daidzein.
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PMID:Clinical characteristics and pharmacokinetics of purified soy isoflavones: multiple-dose administration to men with prostate neoplasia. 1523 50


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