View clinical trials related to Prostate Cancer.
Filter by:To goal of this research is to assess the ability of Gallium-68 (68Ga) Prostate-Specific Membrane Antigen-11 (PSMA-11) positron emission tomography/computed tomography (PET/CT) to increase diagnostic accuracy in localizing primary and metastatic lesions in patients with suspected prostate cancer and elevated Prostate Imaging Reporting and Data System (PI-RADS) scores and Prostate-Specific Antigen (PSA).
Radiation therapy has been shown to be very effective at relieving pain caused by bone metastases. However, certain types of cancers such as prostate, breast, kidney, and melanoma can have resistance to radiation, making treatment less successful. Stereotactic body radiotherapy (SBRT) is a newer form of focused treatment that gives higher doses of radiation without damage to surrounding organs. It often is used to help control and cure disease, but less commonly as a way to palliate and treat symptoms. This study is looking at using SBRT for the purposes of improving pain caused by bone metastases in prostate cancer, breast cancer, kidney cancer, and melanoma patients. It is theorized that the higher levels of radiation may be able to combat the resistance some tumour cells have to radiotherapy and provide improved pain response to treatment. The investigators are looking to show that SBRT has a role in helping this group of patients deal with painful bone lesions from their cancer without increasing side effects and toxicity from the radiation treatment.
The goal of this study is to investigate the feasibility and toxicity of using prostate-specific membrane antigen-positron emission tomography (PSMA-PET) and multi-parametric magnetic resonance imagining (mpMRI) with PET-MR technology to define radiotherapy targets, while meeting all the current planning criteria.
Prostate cancer (PCa) is the most frequently diagnosed cancer in men and second leading cause of cancer-related death. Men with PCa have a wide range of possible outcomes if the cancer has not spread and is classified as Intermediate-Risk PCa (IR-PCa). The standard treatment for IR-PCa is radiation therapy (RT) with or without hormone therapy which can result in cure in some men. In other men, the cancer can come back or spread to other areas of the body. Treatment response in men with IR-PCa is highly variable. This uncertainty has led to significant under- and over-treatment. This study aims to find out if the addition of intensive treatment (hormonal therapy: darolutamide + degarelix) to standard treatment for PCa will work better than standard treatment alone. To do this, some participants will receive hormone therapy and others will not. All participants will receive RT. Currently, it is difficult to identify men who may require more intensive therapy. Current methods, such as using prostate specific antigen (PSA) alone, may not give the doctor enough information about who requires more intensive treatment. The researchers conducting this study believe that a particular arrangement of cancer cells [called intraductal carcinoma (IDC)] and the presence of a genetic marker called SChLAP1 can be used to identify people who would benefit from more intensive therapy. Hormonal therapy such as with drugs called darolutamide (new drug for PCa) and Degarelix, reduce androgens (male hormones, such as testosterone) or block their effect on the cells. PCa cells require androgens to grow and divide, so removal of androgens may be effective in preventing the return of cancer following radiation therapy. Although darolutamide has been studied in about 1000 men with PCa and seems promising and well tolerated it is considered an experimental drug, therefore it can only be used in a research study such as this one. Degarelix has been approved by Health Canada to treat PCa. This is a phase 2, open label, randomized, controlled study and will be conducted across sites in Canada. To qualify, men must have IR-PCa and have both SChLAP1 and IDC present or both absent. Participants will be randomized to receive RT with hormone therapy or RT only. The study treatment period is 6 months for the RT + hormone therapy group. RT will take about 1-2 weeks. All participants will be followed for 5 years with multiple visits to assess safety and treatment effects.
Whether a quantitative detection specfic magnetic resonance imaging (MRI) protocol improves prostate cancer (PCa) detection in biopsy naïve men is not adequately studied.
This study investigates the feasibility of imaging and treatment on a novel 1.5 T MR-Linac radiotherapy hybrid device.
Acupuncture has been shown in several meta-analyses and clinical studies, in different surgical settings and chronic back pain, to be a safe adjuvant option for postoperative pain treatment. In this study, the investigator hypothesize that acupuncture can decrease postoperative pain intensity and amount of given analgesics, and accelerate recovery of bowel motility, in patients after open radical prostatectomy. The investigator will also investigate whether or not acupuncture with needle skin penetration is more efficacious than acupressure.
Rationale: Prostate cancer (PCa) is the second cause of cancer-related deaths for men. The standard surgical treatment for localised prostate cancer is radical prostatectomy. Possible side effects of this treatment are incontinence and erectile dysfunction and this is related to the whole-gland resection. A focal treatment with fewer side effects is desired for patients with only a small focus of PCa. For this purpose, focal laser ablation is feasible. Current focal laser ablation techniques use a single fibre setup with the need for fibre replacement revisualisation of the tumour side accordingly. This leads to a long treatment duration. The Echolaser® system is a laser ablation system with four simultaneously operating laser sources. This provides a potential larger treatment area, without the need for fibre replacement. This makes the system advantageous for focal laser ablation of prostate cancer, especially since it can be applied under local anaesthesia. This pilot study aims to evaluate histological ablative efficacy on radical prostatectomy specimens following TPLA, feasibility and safety using a (multi)fibre setup in men with localized prostate cancer. The investigators hypothesize that TPLA will show adequate histological ablative efficacy and will be feasible and safe.
The purpose of this study is to see whether using the 64Cu-NOTA-PSMA-PEG-Cy5.5-C' dot tracer is a safe way to identify tumor cells before and during surgery for prostate cancer. The researchers want to find out whether PET/MRI scans done after the injection of this investigational tracer are more accurate than the usual imaging scans used to locate deposits of prostate tumor cells. The researchers will study how the tracer travels through your body and where it is distributed. This study is the first time that this tracer will be used in people who are undergoing surgery for prostate cancer.
The investigators will be collecting prostate and fat tissue from participants undergoing radical prostatectomy to culture and study in the laboratory.