View clinical trials related to Prostate Neoplasms.
Filter by:The purpose of this study is to evaluate the safety, pharmacokinetics, pharmacodynamics, and anti‑tumor activities of abiraterone acetate (also referred to as CB7630) in patients with hormone refractory prostate cancer (HRPC).
Following pretreatment evaluation, patients receive PS-341 by intravenous push weekly for 4 consecutive weeks followed by a 24-72 hour rest period. This schedule consists of one treatment cycle. Upon the completion of 4 weeks of PS-341 followed by a 24-72 hour rest period, radical prostatectomy will be performed. Surgery will be delayed if there is any bleeding abnormality (bleeding time greater than 10 minutes) and until platelet count is more than or equal to 100,000 and coagulation profile (PT, PTT) is normal. If at the time of surgery a patient is found to have positive lymph nodes, prostatectomy will be abandoned, the prostate will be biopsied, and the patient will be offered other treatment modalities (hormones, radiation therapy).
Prostate cancer (CaP) is the most commonly diagnosed cancer among males in the U.S. and the second leading cause of cancer-related mortality. More than 230,000 men will be diagnosed with prostate cancer in the USA this year and more than 30,000 will die of this disease. Androgen deprivation, the elimination of testosterone and its active metabolites, remains the single most effective intervention available for the treatment of advanced prostate carcinoma. This is usually achieved by surgical removal of the testes (orchiectomy), by suppressing production of testosterone (LHRH agonists) and/or by blocking the androgens at receptor sites (antiandrogens). Unfortunately, androgen suppression does not cure the disease. Most patients progress within 0-5 years, and all patients ultimately progress if the cancer is not eliminated during initial therapy (usually prostatectomy or radiation). Hormone suppression treatment eliminates the detectable levels of testosterone in the blood. However, the testosterone levels in tissue remain high enough to stimulate androgen receptors. Overexpression of androgen receptors is present in all cell lines which demonstrate "androgen independence," i.e., are resistant to androgen-suppressive therapy. Approximately 95% of testosterone is supplied by the testes, with the remaining 5% supplied by the adrenal glands. The presumption that standard androgen deprivation achieves the optimal level of androgen suppression for patients is based on the levels of androgen which result from orchiectomy. However, because adrenal androgen levels are unaffected by standard modes of androgen deprivation, 5% of the body's testosterone remains despite hormone therapy. The hypothesis of this study is that more effective suppression of the androgen axis through elimination of adrenal androgens and more effective suppression of testosterone metabolites will lower intraprostatic androgen levels, minimizing activation of the androgen receptor and augmenting natural cell death (apoptosis). The investigators propose to test this hypothesis by administering neoadjuvant (pre-surgery) androgen deprivation therapy of different types before prostatectomy for patients with clinically localized prostate cancer. The investigators will assay serum and intraprostatic androgen levels, while assessing relative levels of apoptosis of normal and malignant tissue.
Prostate cancer is the most commonly diagnosed cancer among males in the U.S. More than 220,000 men will be diagnosed with prostate cancer in the USA this year and more that 31,000 will die of this disease. Androgen deprivation, the elimination of testosterone and its active metabolites, remains the single most effective intervention available for the treatment of advanced prostate carcinoma. Androgen deprivation induces an immune response to normal prostate and prostate cancer, which is usually short-lived. Estradiol induces activation of many arms of the immune system and may be a more effective and long lasting means of inducing immunity to prostate tissue. This study will treat clinically localized prostate cancer patients with either estrogens, or standard androgen deprivation without estrogens, prior to prostatectomy in order more completely to describe immune regulation by estradiol in men. Control tissue from patients who have not been treated with androgen deprivation will be procured from the Northwest Special Projects in Oncology Research Excellence (SPORE) tissue core and used as comparisons against the cancers treated before prostatectomy. Tumors removed at prostatectomy, tissue samples and blood samples will be assessed for immune system changes.