View clinical trials related to Prostate Cancer.
Filter by:Selenium, in the form of inorganic Sodium Selenite, may be useful for treating existing prostate cancer. This idea is based on data from our laboratory showing that 1) prostate cancer cells are more sensitive to Selenium (Sodium Selenite)-induced apoptosis than normal prostate epithelial cells, 2) Selenite induces significant growth inhibition of well established prostate cancer tumors in mice at doses that have no detectable toxicity, and 3) Selenite disrupts AR signaling, and that the inhibition of AR expression and activity by Selenite occurs via a redox mechanism involving GSH, superoxide, and Sp1. Altogether, these findings suggest that Selenium may be useful in a variety of potential indications in the natural history of prostate cancer, including both hormone sensitive and castrate resistant prostate cancer, as a single agent, or in combination with radiation, chemotherapy or conventional hormone therapy. Selenite is a potential novel inhibitor of AR expression and function in prostate cancer.
Standard treatment of locally-advanced prostate cancers consists in the association of radiotherapy of prostate and seminal vesicles (SV) and androgen deprivation (AD) for 3 years. This treatment is usually preceded by pelvic lymphadenectomy to assess the possible extension to lymph nodes of prostatic cancer and to avoid irradiating the pelvis in case of no lymph node involvement. However, radiotherapy leads usually to about 30% of grade ≥2 risk of bladder and/or rectal toxicity. This risk particularly depends on the radiation volume. In the aim of lowering the toxicity, the treatment in this study will associate: - pelvic lymph node dissection and resection of seminal vesicles, allowing decreasing the radiation target volume to the prostate only (and not to irradiate the SV); - a high-precision radiotherapy technique combining Intensity Modulated Radiation Therapy (IMRT) and Image-Guided Radiation Therapy (IGRT).
The purpose of this study is to determine the safety and efficacy of a short course of radiotherapy (40 Gy / 5 fractions / 29 days) for the treatment of low- and intermediate-risk prostate cancer.
One purpose of this research study is to examine if a special type of imaging test, a positron emission tomography (PET) scan using the radioactive material [C-11] acetate, will be helpful in detecting prostate cancer lesions in subjects with castrate-resistant prostate cancer (CRPC). This PET scan will be combined with a computed tomography (CT) scan taken during the same imaging session. The other purpose of the PET-CT scan using [C-11] acetate (PET Acetate Scan) is to assist in identifying who is responding to the treatment (docetaxel chemotherapy).
This is a phase I study which will test the safety of different doses of the patients own immune cells which have been changed to help recognize and destroy the cancer cells. The investigators want to find out what effects, good and/or bad, it has on the body and on the prostate cancer. The immune cells (T cells) used in this study will be the patients own immune cells. They will be removed from the patients blood, changed in the laboratory, and then put back into their body. T cells help the body fight infections. These cells may also kill cancer cells in some cases. Right now the patients T cells are unable to kill the cancer cells. For this reason, the physician will change the T cells by putting in a gene so that they may be able to better recognize and kill the prostate cancer cells. A gene is a portion of information which comes from the DNA and tells the cell what to do. This gene will be put into the patients T cells by a weakened virus. It is hoped that this approach will help the T cells recognize the prostate cancer tumor cells and possibly kill them. The investigators have found that T cells modified in this way were able to cure a cancer similar to Chronic Lymphocytic Leukemia in mice. However, this is an entirely new treatment for prostate cancer and it is not known if it will have any beneficial or unexpected harmful effects.
The primary objective of this prospective multi-centre study is to prove the diagnostic accuracy of in vivo 3T multi-modality Magnetic Resonance Imaging (high resolution T2-weighted MRI, DCE-MRI, MRSI and DWI techniques) in distinguishing carcinoma from other prostate tissue. The gold standard for distinguishing the tissue types is the analysis of whole-mount sections of the resected prostate by a genitourinary histopathologist.
The purpose of this study is to determine if testosterone will recover to 90% by year 1 after using Eligard.
We hope to determine the importance of different genes (including B receptors) in anthracycline-induced cardiomyopathy. This has important benefits to patients exposed to anthracyclines, as this could help determine whether certain individuals have increased susceptibility to cardiac injury.
RATIONALE: Diagnostic procedures, such as positron emission tomography (PET) and computed tomography (CT) imaging, may help find and diagnose metastatic prostate cancer. PURPOSE: This phase II trial is studying the side effects of C-11 choline and 18F-fluoromethylcholine and to see how well they work when used in PET and CT imaging in patients with metastatic prostate cancer.
The phase 1 portion of this study is an open-label, multicenter, dose-escalation study of 1-month depot TAK-448 in adult males with prostate cancer who are either on gonadotropin releasing hormone (GnRH) therapy or who might be eligible for GnRH therapy in the future. The phase 2 portion of this study is an open-label, multicenter, randomized study in men with prostate cancer that will confirm the testosterone- and prostate specific antigen (PSA)- lowering potential of up to 2 dose levels of 1-month depot TAK-448.