View clinical trials related to Stage III Prostate Cancer.
Filter by:This clinical trial implements a communication intervention to improve patient-oncologist communication in the outpatient medical oncology setting. A communication brochure called the ASQ brochure may help patients prepare for the doctor visit by thinking through the questions that patients and patients' family want to ask the doctor.
This pilot clinical trial studies how well acceptance and commitment therapy works in improving well-being in patients with stage III-IV cancer and their partners. Learning how to accept negative thoughts and feelings and how to live in the present without worrying about the future or past may improve coping skills in patients with stage III-IV cancer and their partners.
This randomized phase III trial studies how well decision aids work in improving knowledge in patients with newly diagnosed prostate cancer. Decision aids may improve patients' knowledge of their condition and options for treatment, and may also help when talking with their doctor.
This randomized clinical trial studies how well visually enhanced education works in improving prostate cancer and treatment knowledge in patients with prostate cancer that has not spread to other places in the body. Visually enhanced education includes pictures, drawings, and photos, may help doctors better convey information about radiation and prostate cancer to patients.
This pilot trial studies how well nanoparticle albumin-bound rapamycin works in treating patients with cancer that as has spread to other places in the body and usually cannot be cured or controlled with treatment (advanced cancer) and that has an abnormality in a protein called mechanistic target of rapamycin (mTOR). Patients with this mutation are identified by genetic testing. Patients then receive nanoparticle albumin-bound rapamycin, which may stop the growth of cancer cells by blocking the mTOR enzyme, which is needed for cell growth and multiplication. Using treatments that target a patient's specific mutation may be a more effective treatment than the standard of care treatment.
This pilot phase I trial studies copper Cu 64 TP3805 (Cu-64-TP3805) positron emission tomography (PET)/computed tomography (CT) in detecting cancer in patients with prostate cancer undergoing surgery to remove the entire prostate and some of the tissue around it (radical prostatectomy). Many patients with benign lesions must undergo biopsy to test the lesion. Cu-64-TP3805 is a radioactive substance that attaches to cancer cells but not normal cells. PET/CT uses a scanner to make detailed, computerized pictures of areas inside the body where the radioactive substance is lighting up. Using Cu-64-TP3805 PET/CT scans and comparing them with cancer tissue obtained from surgery may help doctors learn whether Cu-64-TP3805 PET/CT can accurately detect prostate lesions and determine whether they are cancerous or benign, which may minimize the need for prostate biopsies.
This phase II trial studies phenelzine sulfate in treating patients with prostate cancer that has not spread to other parts of the body and has come back. Phenelzine sulfate is a type of antidepressant that works by decreasing the amount of a protein called monoamine oxidase (MAO). MAO drugs may have an anticancer effect in prostate cancer.
This randomized pilot clinical trial compares tangerine and red tomato juice in treating patients with prostate cancer undergoing surgery. A diet high in lycopene, a substance found in tomatoes, may help prevent normal cells from transforming into cancer cells in patients with prostate cancer.
This pilot clinical trial studies the best dose of anti-prostate specific membrane antigen (PSMA) monoclonal antibody MDX1201-A488 (MDX1201-A488) given before surgery to aid in visualization of the prostate. Attaching a fluorescence, a substance that emits radiation that is visible, to the anti-PMSA antibody and injecting it into the body may help identify the tumor when specialized microscopes are used.
This pilot clinical trial studies fludeoxyglucose F18 (FDG)-positron emission tomography (PET) in imaging patients with prostate cancer treated with ranolazine. Diagnostic procedures, such as FDG-PET, may help find prostate cancer and find out how far the disease has spread. Giving ranolazine may enhance FDG-PET imaging by increasing the amount of glucose available for uptake by the scan.