View clinical trials related to Prostatic Neoplasms.
Filter by:This is a prospective study to determine if the adjuvant use of Curcumin improves recurrence-free survival.
This will be a prospective diagnostic trial of screening for prostate cancer among men with genetic predisposition.
This is an open-label, randomized, parallel group two-stage phase 1-2 study with an escalation and an expansion component. This study will evaluate an extended-release (ER) formulation of onapristone in patients with prostate cancer in which Progesterone Receptor (PR) may be contributing to tumor progression. A companion diagnostic to select patients whose prostate cancer expresses the activated form of the PR (APR) is under development and will be implemented in this study; it may be used to further enrich the selection of the population based upon ongoing review of the results. Patients will be treated until occurrence of an intolerable safety issue, treatment failure, if patient elects to withdraw, or for non-compliance with either protocol-specified evaluations or onapristone treatment. An additional cohort of patients will be included at the recommended phase 2 dose to gain additional understanding of the onapristone safety profile and potential anti-cancer activity.
This study is being proposed to evaluate the use of moderate hypofractionated proton therapy in low and intermediate risk prostate cancer patients. Quality of life outcomes as well as gastrointestinal and genitourinary early and late toxicities will be analyzed and compared to conventional proton therapy regimens. It is thought that this regimen will produce comparable findings and would result in substantial health care cost savings, as well as, be more convenient for patients.
The purpose of this study is to determine the side effects and how effective CyberKnife stereotactic ablative body radiation (SABR) is in patients with prostate cancer. The CyberKnife system is a new type of radiation machine that uses a special system to precisely focus large doses of x-rays on the tumor. The device is designed to concentrate large doses of radiation onto the tumor so that injury from radiation to the nearby normal tissue will be minimal. The purpose of this evaluation is to see if this treatment will help patients with your condition and to evaluate the effect of this treatment on your quality of life over time.
Men with a BRCA1 or BRCA2 mutation are at increased risk for early onset, aggressive prostate cancer compared to men in the general population. Standard of care screening for men with a BRCA mutation includes PSA testing and digital rectal examination (DRE), the same as with men in the general population. This study is being done to assess whether there is value in using MRI as a screening tool to detect prostate cancer at an earlier stage than may otherwise be detected using standard of care screening (PSA, DRE). It is unclear whether MRI has utility as a screening tool in this specific population at high risk for aggressive disease.
The primary objective of this study is to document the effectiveness of Cyberknife stereotactic body radiotherapy (SBRT) in the treatment of intermediate and high-risk localized prostate cancer defined by biochemical Disease-Free Survival (bDFS), using Phoenix and American Society of Therapeutic Radiation and Oncology (ASTRO) definitions, at 5 years. During the prostate-specific antigen era, an ever-increasing percentage of men with prostate cancer have presented with clinically localized, potentially curable disease. Although conventional treatment options are potentially curative in selected patients, these treatments also have drawbacks, including the risk of negative long-term quality of life consequences and serious complications. The CyberKnife® system is a type of radiation machine that uses a special system to precisely focus large doses of x-rays on the tumor. The device is designed to concentrate large doses of radiation onto the tumor so that injury from radiation to the nearby normal tissue will be minimal. Intermediate risk patients will be treated with either CyberKnife® Stereotactic Body Radiation Therapy (SBRT) monotherapy or CyberKnife® SBRT boost followed by Intensity Modulated Radiation Therapy (IMRT). High risk patients will be treated with CyberKnife® SBRT boost followed by IMRT. Treatment will last 4-7 days. Patients will complete the QOL questionnaires before treatment. Questionnaires will also be completed during follow-up visits at 1, 3 , 6, 12, 18, 24, 30 and 36 months then every 12 months until year 5.
This clinical trial is designed on the basis of an unmet clinical need, as well as other factors including: 1) the ability to identify subjects at high risk of dying early from their disease, 2) the fact that hormonal therapy has already been shown to improve survival when applied early in the natural history, 3) the availability of chemotherapy such as cabazitaxel that can improve survival in subjects with advanced disease and 4) that chemotherapy (docetaxel) given concomitant with hormone treatment has proven to prolong time to progression. It is the investigators hypothesis that a more appropriate group of patients who may benefit from the curative potential of systemic chemo-hormonal modality is that with minimal, but detectable disease who have a high probability of developing metastatic disease, clinical symptoms and eventually death from prostate cancer in a defined time frame. The investigators hypothesize further that the approach is likely to be more effective at a time of minimal tumour burden, resulting in minimization of the overall burden of therapy and better quality of life while on treatment. This trial will determine whether any benefit is gained by adding chemotherapy before hormonal therapy to hormonal therapy alone in the population of subjects with metastatic or high risk disease.
This study will evaluate a method to detect tumor cells that are circulating in the blood without getting a biopsy. The investigators already know from other studies that cancer tumors shed a small number of cells into the bloodstream every day. These are called circulating tumor cells (CTCs). Some early studies indicate the amount and type of CTCs in the blood can help determine the status of the tumor itself and the way it is responding to treatment. In this study, the investigators will compare the number of CTCs in the blood at different time frames before and after surgery to remove the prostate.
To development of clinical assessment technique using multi-radiotracer positron emission tomography/magnetic resonance (PET/MR) in prostate cancer - to establish the optimal imaging technique of PET/MR using multiple radioactive tracers for prostate cancer - to establish the imaging biomarker using PET/MR for clinical assessment of prostate cancer and early detection of recurrent prostate cancer