View clinical trials related to Prostate Neoplasm.
Filter by:The effect of preoperative glycemic control measured by HbA1c on prostate cancer (PCa) outcome remains controversial. Thus, the investigators aim to examine the association of preoperative glycemic control with oncologic outcomes after radical prostatectomy (RP). The investigators will prospectively collect the relevant data including preoperative HbA1c in 264 patients of PCa patients undergoing RP. The associations between clinical variables and risk of adverse pathological features and disease recurrence will be tested using a multivariate logistic regression and multiple Cox-proportional hazards model, respectively.
This evaluates the detection rates of prostate cancer by MRI-targeted prostate biopsy compared to standard 12-core trans-rectal ultrasound guided (TRUS) prostate biopsy. Each participant will be randomly allocated to one of the biopsy tests. We hypothesise that MRI-targeted biopsy will detect no fewer clinically significant cancers than TRUS biopsy but will detect fewer clinically insignificant prostate cancers than TRUS biopsy.
The purpose of this study is to determine the effects of CyberKnife radiosurgery in patients with early stage prostate cancer. The investigators hypothesize that hypofractionated stereotactic radiotherapy via the CyberKnife® can deliver tumor ablating doses of radiation to prostate tumors safely and effectively while sparing the adjacent tissues (rectum, bladder, ureters, urethra, penile bulb, and bowel) from receiving damaging doses of radiation.
Men with castrate resistant prostate cancer who are switched from a luteinizing hormone-releasing hormone (LHRH) antagonists from a LHRH agonist will experience a fall in prostate-specific antigen (PSA).
Background: - Sodium fluoride (NaF) is a common compound that is found in various foods and can be used to increase bone strength. When this compound is added to a small dose of radiation (F-18), it collects in the bones, with higher amounts in areas where the bone is rapidly changing, such as the site of a healing fracture or a tumor. By giving F-18 NaF before a combined positron emission tomography/ computed tomography (PET/CT) scan, researchers hope to be able to better measure the changes in the bone that may indicate that a certain type of cancer (such as prostate cancer) has spread to the bones. Objectives: - To evaluate the effectiveness of F-18 NaF in imaging studies to measure bone tumors and their change over time and compare with clinical course, in individuals with prostate cancer. - To determine the smallest amount of change in the bone tumors that F-18 NaF can accurately measure. Eligibility: - Men at least 18 years of age who have been diagnosed with prostate cancer and have had imaging studies to determine whether the cancer has spread to their bones. Both patients with and without known bone involvement will be enrolled. Design: - Participants will be screened with a physical examination, medical history, and imaging studies, and will provide baseline blood samples to evaluate kidney function. - For the study, participants will have two F-18 NaF PET/CT scans on separate days for baseline. These repeat scans will be used to determine the amount of change that is due to the imaging process alone (i.e. not due to the disease getting better or worse. Participants will receive a dose of F-18 NaF intravenously, and will have PET/CT scanning over the body (mid ear to upper thighs) over 1 hour, the body followed by a complete whole-body PET/CT scan at approximately 2 hours after F-18 NaF injection. Participants will be watched closely for side effects from the F-18 NaF until the scans are done, and will be asked to drink plenty of water to void the F-18 NaF from the body after the scans. - As a followup study, participants will have two more F-18 NaF PET/CT scans, one 4 to 8 months after the first scans and then one 10 to 14 months after the first scans. Participants will provide additional blood samples before the followup scans.
This is a clinical research study designed to measure the effectiveness of focal Interstitial Laser Thermal Therapy (ILTT) at killing prostate tumours. Patients with "low risk" prostate cancer (Trans Rectal US Guided Biopsy positive) will undergo an MRI scan to try to localize the tumour. If the MRI detects the tumour they will then undergo a perineal ablative procedure (ILTT) under general anaesthetic. Seven days following ILTT they will come back to the hospital for a Radical Retoropubic Prostatectomy (RRP) procedure, which is the removal of a prostate gland through a surgical incision. After removal, the prostate will undergo further analysis to determine the exact location of cancer and evaluate the extent of cancer death caused by ILTT.
This is a randomized study evaluating the effectiveness and direct effect a commercial soy supplement has on prostate cancer and normal prostate tissue. Patient will be randomized it either receive placebo or a commercial soy supplement for 2-4 weeks prior to the planned surgery for treatment of their prostate cancer. Patient's blood and prostate tissue will be evaluated to determine the effects of the soy supplement on the prostate tissue.
This study will test the ability of an experimental vaccine to increase the number of tumor-fighting immune cells (lymphocytes) in patients with localized prostate cancer and prevent the disease from recurring following radiation therapy. The vaccine is intended to stimulate lymphocytes to target and attack cells containing a protein called prostate specific antigen, or PSA. It is composed of the following parts: - rV-PSA: Vaccinia virus plus human DNA that produces PSA (prostate specific antigen) - rV-B7.1: Vaccinia virus plus human DNA that produces B7.1 (a protein that helps guide immune cells to their targets) - rF-PSA: Fowlpox virus plus human DNA that produces PSA - GM-CSF: Drug that boosts the immune system. - IL-2: Drug that boosts the immune system. Patients 18 years of age and older with prostate cancer confined to the prostate who have received a smallpox vaccine sometime in the past and who do not have a history of allergy to eggs may be eligible for this study. Candidates are screened with a complete medical history and physical examination, blood tests, and skin tests (similar to those for allergies or tuberculosis) to assess immune function. Participants are randomly assigned to receive one of the following three treatments: Group 1 - standard radiation therapy plus the experimental vaccine; Group 2 - standard radiation therapy without the vaccine; Group 3 - standard radiation therapy with the vaccine, but with a different dose of IL-2 from Group 1. Patients in the vaccine groups receive injections in the arm or thigh in 28-day treatment cycles, as follows: - GM-CSF: Days 1 through 4 of the first week - IL-2 5: for Group 1, 5 days in the second week of each cycle; for Group 3, 14 days beginning in the second week of each cycle - rV-PSA and rV-B7.1: Day 2 of the first cycle only - rF-PSA (booster shots): Every 28 days, beginning day 2 of the second cycle (i.e., days 30, 58, 86, etc.) Treatment continues for eight cycles unless serious side effects develop, PSA levels rise significantly, or the doctors feel there is no reason to continue therapy. All patients undergo radiation therapy and possibly hormone therapy, if indicated. Blood samples are drawn once a week for the first month and then once every 4 weeks to monitor safety. After treatment ends, patients are followed with examinations and blood tests every 3 months for the first 2 years and then every 6 months until the doctors determine follow-up is no longer needed or the cancer returns. All patients have HLA tissue typing at the beginning of the study. Those who are type HLA-A2 are asked to have additional procedures for studying the immune response that can be done only with this tissue type. This involves collecting blood samples before treatment begins, every 4 weeks during treatment, once after cycle 2, and once 4 months after the eighth vaccine. They also undergo four leukapheresis procedures for collecting white blood cells. For leukapheresis, blood is collected through a needle in an arm vein, similar to donating a unit of blood. The blood flows through a machine that separates it into its components. The white cells are removed, and the red cells, platelets and plasma are returned to the body, either through the same needle or through a needle in the other arm.