View clinical trials related to Prostatic Neoplasms.
Filter by:This is a phase I study to evaluate the feasibility and safety of using MRI/MRS to identify the dominant intraprostatic lesion (DIL) and to selectively boost the lesion using inverse planned high dose rate (HDR) brachytherapy. The main objective is to exploit the ability of MRI/MRS to identify cancer regions within the prostate or the dominant intraprostatic lesions (DIL). The imaging data will be combined with the treatment planning CT images to define a treatment plan that will boost the dose delivered to the DIL up to 150% of the prescribed dose. Dose to the whole prostate and the dose delivered to adjacent organs will not change. This is accomplished by using inverse treatment planning software that can focus normally occurring high dose regions within the target volume to coincide with the DIL. After enrollment, each patient will have a MRI/MRS before starting treatment. Hormonal therapy and external beam radiotherapy will be given based on current standard of practice. During HDR brachytherapy, information about the location of tumor within the prostate will be used to design the brachytherapy treatment plan. We will try to increase dose to DIL by coincide existing high dose region on DIL using inverse planning software. Dose to prostate, and adjacent structure will remain the same as the current treatment practice. Timing and the delivery of brachytherapy will not change from our current practice. After the treatment, each patient will remain on study and follow for 12 months and treatment toxicity will be evaluated. A two-stage study design will be applied with a stopping rule for safety. Once a patient comes off study he will be routinely followed for disease outcome and any late toxicities.
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.
Avodart (dutasteride) reduces the male hormone (DHT) that leads to prostate growth and stimulates cancerous growth. Avodart is currently approved by the FDA to treat men with symptoms of an enlarged prostate. Avodart works by reducing DHT and prostate size; therefore, the drug may be useful in improving lower urinary tract symptoms (LUTS) such as frequency, urgency, weak stream, and urination difficulty (dysuria), among others, in men with prostate cancer. Avodart may be effective in men with prostate cancer who are being treated with hormonal therapy with one injection of Zolodex (goserelin) followed one month later with a trans-urethral incision of the prostate (TUIP), and three months after that, seed implantation (SI) of the prostate. The purpose of this study is to test whether Avodart (dutasteride) is effective on LUTS and dysuria in men with localized prostate cancer being treated with single-dose goserelin, TUIP, and interval SI.
RATIONALE: New diagnostic procedures, such as C-11 choline PET-CT scan, may be effective in finding cancer that has spread to the bone and lymph nodes in patients with prostate cancer. PURPOSE: This clinical trial is studying how well C-11 choline PET-CT scan works in finding metastases in patients with newly diagnosed high-risk prostate cancer.
The purpose of this uncontrolled, multi-center, open-label trial was to investigate the feasibility of using degarelix as intermittent androgen deprivation (IAD) therapy in the treatment of prostate cancer.
Studies on patterns of how many men get prostate cancer in other countries show that environment contributes to the high incidence of prostate cancer in the United States. Epidemiology studies suggest that this influence may be reduced by the diet of men at risk of getting prostate cancer. Although the exact nature of the effects of diet are not completely known, the amount of fat eaten appears to affect the number of men who get prostate cancer. The type of fat also seems to matter. Eating more of a type of fat called omega-3 polyunsaturated fat is associated with decreased prostate cancer risk. Omega-3 fat comes from fish and is quite different from the type of fat from animals and vegetables (omega-6 fat). Because the exact mechanism of this reduction in prostate cancer risk is not known, no blood test indications, called markers, have been discovered that would show the effect working. Study doctors designed this study to try to find markers in the blood tests of men who have prostate cancer, and to find out if a diet supplemented with omega-3 type fat from fish oil helps reduce those markers, hence indicating that it helps reduce the cancer in these men. These men will be compared to men with prostate cancer whose diets do not contain the fish-oil fat. The men chosen will have prostate cancer and be scheduled for operations to have their prostate glands removed. They will be chosen randomly to be given the fish-oil diet or a regular Western diet for comparison for 4 to 8 weeks. Their blood will be checked at the beginning of the diet. After the 4-to-8-week period, they will have their operations. Their blood will be checked again and a sample of their removed prostate will be examined to tell if the diet had any effect on the cancer and its markers.
The study involves use of a device called an endomicroscope to obtain high resolution images of microscopic structures during robot-assisted prostate cancer surgery. This feasibility study is largely descriptive, and will use endomicroscopy to document the cellular and architectural appearance of tissue during minimally invasive prostate surgery for later comparison with features seen upon conventional histopathological examination of biopsies or resection specimens.
The purpose of this study is to compare the location of the cancer found in the prostate gland after it is removed to the location that was predicted on the MRI scan during biopsy. In this way, we can better determine if the Magnetic Resonance Imaging (MRI) was accurate, and if the MRI could be safely used to guide other types of treatments such as brachytherapy. We also plan to carefully measure how frequently surgery is able to completely remove the cancer, as well as the side effects and effectiveness of surgery after radiotherapy. The study will be coordinated and closely integrated with a separate concurrent study of MRI-guided prostate biopsy, which will be performed prior to accrual to this trial (UHN 05-0641-C).
Prostate cancer is prevalent in the United States, with approximately 230,110 new cases and 29,900 deaths in 2004. Approximately 30% of new cases will be clinical stage T3 when they are diagnosed. This is a stage in which there is high probability that the cancer has spread beyond the prostate gland itself, making it much more difficult to treat. In these cases, when surgery is done by itself and the prostate is removed, it is still very likely that some cancer that has spread beyond the prostate remains and will get worse. Radiation applied to the prostate also does not work well on tumors that have spread beyond the prostate. Even surgery and radiation combined have not eliminated the problems caused by prostate cancer that has spread into the tissue outside the prostate itself. New treatments are needed to deal with prostate cancer at this more serious stage. Study doctors believe that it might be possible to shrink the prostate cancer using a new drug called SUO11248 or Sunitinib. After the patients take the drug, study doctors believe the cancer will shrink back to within the prostate, and they can then surgically remove the prostate and all the cancer. Patients on this study also will be given increasing doses of Sunitinib to find out how much of the drug can be given safely.
The purpose of the study is to evaluate the pharmacodynamic profile and safety of BN83495 in patients with prostate cancer with disease progression while on androgen ablative therapy