View clinical trials related to Prostate Cancer.
Filter by:The purpose of this clinical trial is to find out the effect of epirubicin with estramustine phosphate and celecoxib on PSA and objective response in patients with hormone resistant prostate cancer as well as evaluating the toxicity, quality of life of this combination. Celecoxib is an FDA approved drug to treat arthritis. Epirubicin, alone or with estramustine phosphate has been used in the treatment of hormone resistant prostate cancer. These drugs have demonstrated evidences of tumor blood vessel suppression and combination of these three drugs could possibly arrest further tumor growth or even make the tumor decrease in size.
RATIONALE: The use of nutritional supplements, such as selenium, may stop prostate cancer from growing. Internal radiation, such as brachytherapy, uses radioactive material placed directly into or near a tumor to kill tumor cells. Giving selenium before brachytherapy may be an effective treatment for prostate cancer. PURPOSE: This randomized phase I trial is studying selenium to see how well it works compared to placebo in treating patients who are undergoing brachytherapy for stage I or stage II prostate cancer.
RATIONALE: Estrogen may cause the growth of prostate cancer cells. Hormone therapy using fulvestrant may fight prostate cancer by blocking the use of estrogen by the tumor cells. PURPOSE: This phase II trial is studying how well fulvestrant works in treating patients with recurrent prostate cancer.
Docetaxel-based therapy has been shown to prolong survival as first-line therapy for patients with HRPC, and has become the standard of care. The beneficial effects of any therapy in HRPC may be diverse and include reduction in tumor bulk (when measurable), reduction in PSA, reduction in symptoms (particularly pain), or stabilization of disease. Clear reductions in tumor bulk or PSA may provide objective evidence of a treatment effect, and stabilization of disease may be just as clinically meaningful in patients who are actively progressing prior to starting therapy. Pemetrexed has shown a broad array of activity in many diseases that until now were thought to be non-responsive to chemotherapy in the second-line setting. This trial is designed to further assess the efficacy, safety, tolerability, and pharmacogenetics of pemetrexed as a single agent in subjects with HRPC whose disease has progressed following one prior taxane-based chemotherapy regimen for HRPC.
This pilot study is designed to determine the feasibility and safety of administering docetaxel at various dosing levels on a bi-weekly schedule in older men with hormone refractory prostate cancer.
This was an extension study for the study FE200486 CS12 (NCT00819156). Each participant was to be treated until he was discontinued or withdrawn from the study, or a marketing authorization for degarelix had been obtained. The study was terminated when all ongoing participants had been treated for at least 5 years (including one year in the main study).
An Open-Label, Multi-Center, Extension Study Investigating the Long-Term Safety and Tolerability of Repeat Doses of FE200486 in Prostate Cancer Patients
Because of the high incidence of post-radiation erectile dysfunction (ED), up to 72% after external-beam radiotherapy, this patient category represents a most difficult therapeutic challenge. Therefore, prevention of ED could be more effective than treatment. Tadalafil, a new phosphodiesterase type 5 inhibitor, has been recently introduced. No studies have investigated the efficacy of tadalafil in preventing ED in patients undergoing radiotherapy for prostate cancer. Efficacy of tadalafil can last up to 36 hours after intake. This will result in a prolonged and continuos enhancement of penile vascular responsiveness. This randomized, double-blind, placebo-controlled study has been designed to evaluate the efficacy of 20-mg of tadalafil administered for 12 months in maintaining erectile function of potent patients undergoing external-beam radiotherapy for prostate cancer.
The purpose of this clinical trial is to find out the safety and effectiveness as well as patient’s quality of life on the combination of Taxotere and celecoxib on patients with hormone refractory prostate cancer. Celecoxib (Celebrex) is an FDA approved drug to treat arthritis. Taxotere (Docetaxel) is an FDA approved chemotherapy drug to treat certain forms of cancer. Both drugs have demonstrated evidences of tumor blood vessel suppression and combination of these two drugs could possibly arrest further tumor growth or make the tumor decrease in size.
BACKGROUND: -This study represents a progression from findings in four previous National Cancer Institute (NCI) Radiation Oncology Branch (ROB) protocols (02-C-0167A, 02-C-0207E, 03-C-0190B, 04-C-0171). In these previous works we have begun to develop techniques to obtain Magnetic Resonance (MR) biological images and co-register tissue in prostate cancer patients. OBJECTIVES: -The primary objective of the first portion of this study is to assess the feasibility of using Intensity-modulated radiation therapy (IMRT) to treat the at-risk lymph nodes in prostate cancer. Also, if feasible, we hope optimize this technique with experience. ELIGIBILITY: -This is a study of image guided, targeted radiation therapy in patients with high risk of nodal metastases from prostate cancer. Patients with prostate cancer who have more than 15% risk of lymph node (as defined by the Partin tables) metastasis will be eligible for this study. DESIGN: - On the first 10 patients, we will perform approximately 5 computed tomography (CT) simulations throughout the course of their therapy. On each simulation, the initial treatment plan will be re-run. The dose-volume data from target and normal tissues will then be re-analyzed. From this analysis we will be better able to determine the size of margins needed to account for organ motion and changes such as varying amounts of gas in the bowel and fluid in the bladder. To the best of our knowledge, no such analyses have been published. - If the initial part of this trial is feasible, we will proceed to a phase I dose escalation trial of radiation to the at-risk lymph nodes. The primary statistical objective of the phase I portion of this study is to estimate the Maximum Tolerated Dose (MTD) of external beam radiation based on evaluating acute toxicity. The study will be conducted with a dose-escalation design with 3 patients in each dose cohort. If fewer than 2 of 3 patients experience an acute dose limiting toxicity (DLT) than patients will be accrued to the next dose cohort. If 2 or more of 3 patients experience a DLT then the MTD will be exceeded and the prior, lower dose cohort will be considered the MTD. Secondary objectives of this study are to relate patterns in gene and protein expression to response and toxicity and to evaluate the frequency of late term toxicity. - Specific procedures and risks will be described in a separate consent to be obtained at the time of biopsy. Tissue samples will be processed for complementary deoxyribonucleic acid (cDNA) microarray testing and stored for future analysis in the Radiation Oncology Branch, NCI. - Anatomic Magnetic Resonance Imaging (MRI) and magnetic resonance (MR) biological images of the prostate and pelvis will be obtained and tissue will be acquired with biopsy locations precisely translated (co-registered) to an MR image of reference. A fiducial marker (gold seed) will be left at the biopsy site as a fiducial marker to direct future radiation therapy to the prostate. If necessary, additional fiducial markers will be placed for prostate localization during treatment.