View clinical trials related to Prostate Cancer.
Filter by:The primary purpose of this study is to determine whether a tumor test recently developed by GenomeDx Biosciences known as Decipher® can predict aggressive prostate cancer with the same accuracy in African-American men (AAM) as in non-African-American men (NAAM). The Decipher® test was developed from samples derived mainly from men of European origins and little is known about its performance in AAM. It is important to study whether this test can be used in AAM who are known to experience the highest rates of prostate cancer as well as death from prostate cancer. The use of the Decipher® test result to predict how well a patient will do before treatment may make it possible for doctors to distinguish aggressive disease from low risk prostate cancer and modify treatment accordingly. Thus, patients that do not need additional therapies may be spared from unnecessary side effects and those that are at risk may be provided with more aggressive therapy to improve survival. This study is being done to learn whether the Decipher test can really affect these outcomes.
This study will offer men with intermediate risk prostate cancer who are suitable for, and interested in, prostate brachytherapy, the opportunity to be randomized between low dose rate (LDR) brachytherapy using permanent implantation of radioactive seeds (the current standard of care in BC) and high dose rate (HDR) or temporary brachytherapy which is also available as a standard of care in BC but only when used as a boost in addition with external beam radiotherapy. In addition, men will be offered the opportunity for testing the aggressiveness of their cancer using Cell Cycle Progression Gene Profile.
There are several new therapies available to treat men with advanced prostate cancer; however, the decision making tools needed to determine the best treatment for these patients are noticeably absent. The prostate-specific membrane antigen (PSMA) is increasingly being recognized as an important target for prostate cancer imaging and determining the most effective therapy. Accordingly, a wide variety of agents are being used to image PSMA. One of these agents is 18F-DCFPyL. In this study the investigators will image men with advanced prostate cancer using 18F-DCFPyL and a positron emission computed tomography (PET/CT) scanner. The investigators will compare the results of 18F-DCFPyL PET/CT for the detection of metastases and monitoring the effects of therapy with conventional imaging (CT, bone scan) and clinical follow-up. In this way, the investigators will evaluate the benefit of using 18F-DCFPyL PET/CT to decide what is the best treatment strategy for a man with advanced prostate cancer.
This study is being conducted to collect and analyze biospecimens (blood and urine) and clinical data from patients with prostate cancer as well as healthy volunteers to better understand the differences between cancer cells and normal tissues with the goal of developing a better way to detect and track the treatment of prostate cancer. - These samples are being collected to conduct research to accomplish the goal of improving cancer therapies, biomarkers, and hopefully lead to more effective treatment of prostate cancer. - The samples that you are providing as a patient with prostate cancer will be used in future research. - Your biospecimens will be compared to the cancer and normal volunteer specimens from other participants to understand genetic differences between normal and cancer cells. Genetic material, including DNA and RNA, will be obtained from samples, stored, and used for evaluation. - Clinical information and samples will be collected and stored for ongoing research. This is a necessity because improved diagnosis, prognosis and treatment of cancer in the future depend upon the ongoing analysis of basic research findings and clinical outcomes. This type of research may improve the lives of future patients with cancer. Men between the ages of 18 and 100 with a diagnosis of cancer undergoing standard therapy with radiation may join.
Background: Metastatic castrate-sensitive prostate cancer is cancer that has spread beyond the prostate area. It can be controlled by lowering the amount of testosterone in the body. This is called androgen deprivation therapy (ADT). The vaccine PROSTVAC might help the immune system kill cancer cells. Researchers want to add PROSTVAC and docetaxel chemotherapy to ADT. They think this may work better against prostate cancer than ADT alone. Objective: To test if adding PROSTVAC and docetaxel to ADT works better against prostate cancer than ADT alone. Eligibility: Men ages 18 years and over with metastatic castrate-sensitive prostate cancer Design: Participants will be screened with: Physical exam Medical history Blood tests Possible computed tomography (CT), magnetic resonance imaging (MRI), or bone scan: Participants lie in a machine. The machine takes pictures of the body. Electrocardiogram: Soft electrodes are stuck to the skin to record heart signals. Participants will have 2 optional tumor biopsies during the study. Participants will join 1 of 2 groups. Both groups will get: ADT Docetaxel by vein Steroids by mouth or vein before each docetaxel infusion PROSTVAC injection Both groups first have ADT. One to 4 months after, they have: Group A: Docetaxel every 3 weeks for 6 cycles PROSTVAC 3 weeks after the last infusion Booster injections 2 weeks later and then every 3 weeks, for 6 boosters total Group B: PROSTVAC Booster 2 weeks later Docetaxel hours later Docetaxel and the booster every 3 weeks for 6 cycles Participants will have a visit 4-5 weeks after the last treatment. They will then have visits every 12 weeks. Participants will be followed for up to 15 years. This includes physical exams every year for 5 years.
Radiation therapy plays an important role in the management of prostate cancer. In recent years it has become evident that higher doses of radiation are required to optimize disease control. The limiting factor of escalating dose to the prostate is the surrounding normal tissue. Despite advances in escalating radiation therapy, failures still occur in 20-30% of patients most often at the site of the original primary disease. As such there is growing interest in further dose escalating to the area of primary disease burden.The aim of this work is to look at the feasibility and toxicities of an integrated focal boost to whole gland prostate treatment using high dose rate brachytherapy.
Two radiation therapy techniques are commonly used for the treatment of intermediate and high risk prostate cancer: brachytherapy and external beam radiation therapy (EBRT). However, both have limitations. Brachytherapy, in which radioactive seeds are inserted into the prostate, produces excellent outcomes but is invasive and not all patients are eligible or willing to receive this treatment. EBRT, while gentle at the time of delivery, tends to be very prolonged and may have poorer outcomes than brachytherapy. This study will examine the use of stereotactic ablative radiotherapy (SABR), in which patients are given only a few, high dose radiation treatments. Treatments are short, non-invasive, applicable to patients not able to do brachytherapy, and may be more effective than conventional EBRT. This study will compare SABR with EBRT in terms of the rates of acute and late toxicities for each treatment, disease-free survival, and health-related quality of life measures.
The primary purpose of this phase 1 study is to determine the dose-dependent toxicity and maximum tolerated dose (MTD) of oncolytic adenovirus-mediated cytotoxic and IL-12 gene therapy in men with locally recurrent prostate cancer after definitive radiotherapy
The purpose of this study is to determine if the addition of apalutamide to ADT provides superior efficacy in improving radiographic progression-free survival (rPFS) or overall survival (OS) for participants with mHSPC.
The investigators aim to evaluate the feasibility of a larger clinical trial assessing an exercise program during the "teachable moment" in patients with prostate cancer and measuring its effect on tumor apoptosis signaling, lipogenesis and steroidogenesis. Participants will be randomized between a 4-12 week exercise program or to standard of care only. Participants will be assessed at screening, baseline (day 0), throughout the trial intervention (days 1-84), post-intervention visit (prior to radical prostatectomy) and final study visit 6-months post-radical prostatectomy. At each assessment, physical, biological samples and psychosocial assessments will take place.