View clinical trials related to Prostate Cancer.
Filter by:The preferred method for early detection of prostate cancer (PCa) in older men with family history is the Prostate Specific Antigen test (PSA test), although the method is imprecise. It produces a high number of false-positive results and increases the risk of over-diagnosis and over-treatment. Yet, an increasing number of men get the PSA test as part of unsystematic screening. Genetic risk assessment may be a better way to identify men with low risk of PCa. The main study hypothesis is that genetic information about low risk of PCa can reduce the number of patients who get a PSA test as part of unsystematic screening.
The UKGPCS was set up to find genetic alterations which occur in patients who have prostate cancer. A man's risk of developing prostate cancer increases if he has a first-degree relative (father or brother) who was diagnosed with prostate cancer at a young age. This is why we are looking for men who are affected at a young age or who have a family history of prostate cancer, since it is more probable that these prostate cancers are due to an inherited genetic cause rather than an environmental cause. We also ask all men who come to the Royal Marsden Hospital to be treated for prostate cancer if they would like to take part in the study so that we can also look to see if we find genetic alterations in older men, and those who do not have a family history of prostate cancer.
To determine the adverse events and genito-urinary side-effect profile of focal therapy to treat localised low to intermediate risk prostate cancer using irreversible electroporation (Nanoknifeā¢).
The purpose of this study is to find out what effects, good and/or bad, taking ipilimumab with abiraterone acetate plus prednisone has on the patient and the prostate cancer. Abiraterone acetate plus prednisone are drugs that lower testosterone (testosterone stimulates prostate cancer growth). Abiraterone acetate plus prednisone is a treatment for patients with prostate cancer. Abiraterone acetate plus prednisone has not been used together with ipilimumab before. This study will test how they work together. Each patient will receive abiraterone acetate, prednisone and ipilimumab.
Prostate cancer is the most common male cancer in the UK with 35,000 cases diagnosed annually. 35% of these are locally advanced disease. These patients have a high chance of pelvic lymph node involvement and have relatively poor prostate cancer survival rates of 22.5% at 10 years. One of the standard treatments for these patients is radiotherapy to the prostate. PIVOTAL is a multi-centre phase II non-comparative randomised feasibility trial, in which patients with a high chance of pelvic lymph node involvement are randomised between prostate radiotherapy alone and prostate + pelvic radiotherapy. Both groups will receive radiotherapy called Intensity Modulated Radiation Therapy (IMRT). This is a relatively new method of shaping radiotherapy treatment beams which allows the tumour to be treated more precisely, whilst avoiding more of the surrounding normal, healthy tissues (particularly the rectum, bladder and bowel). Using IMRT, it is possible to deliver higher doses of radiotherapy to the pelvis than with previous radiotherapy methods - this has been tested in a single hospital, single group setting and levels of side effects (toxicity) were acceptable. PIVOTAL aims to find out whether toxicity levels at 18 weeks from the start of radiotherapy remain acceptable when treatment is given in multiple cancer centres across the UK. It is randomised to ensure unbiased collection of acute toxicity data and to provide information on patients' willingness to participate in a randomised study. Should the phase II study be successful, the investigators would develop a phase III trial to compare treatment effectiveness (disease control). Patients who enter PIVOTAL will be followed up for two years from the start of radiotherapy and data relating to toxicity will be collected. They will also be asked to complete patient related symptoms questionnaires. Data related to disease recurrence will then be collected annually from patients' standard hospital visits.
This study will evaluate the usefulness of an informational website designed to educate patients with prostate cancer about their options for treatment. The investigators hope that this website will assist patients with making informed decisions about their care and improving their satisfaction with the treatments they choose.
This is a single arm, open label study of approximately 100 high-risk prostate cancer patients scheduled for prostatectomy and extended pelvic lymph node dissection. Patients receive a single IV dose of 99mTc-MIP-1404 (study drug) followed by SPECT/CT scan 3-6 hours after injection. As standard of care, patients will undergo prostatectomy and extended pelvic lymph node dissection (EPLND) within three weeks of study drug dosing. 99mTc-MIP-1404 image data will be evaluated for visible uptake and compared with histopathology.
The first technology is called high dose rate brachytherapy. Brachytherapy is sometimes called internal radiation therapy. High dose rate brachytherapy is a procedure that involves temporarily placing radioactive material inside the patient's body for about 10-20 minutes. Then, the remainder of the radiation treatment will be given over a 3 week period using stereotactic body radiation therapy (SBRT). SBRT is a novel treatment modality that involves the delivery of very high individual doses of radiation to tumors with high precision. This allows the doctor to deliver the same amount of radiation in a much shorter time. The purpose of this study is to determine the safety of brachytherapy when combined with hypofractionated SBRT.
In standard clinical care, the prostate is imaged by magnetic resonance imaging (MRI) which is a procedure to take pictures of body structures by using a strong magnetic field and radio waves. The strength of the magnet used is expressed in the unit Tesla (T); a higher Tesla number means the magnet has stronger pull. Standard magnetic resonance imaging of the prostate uses a magnet 1.5 Tesla strong as well as a specialized endorectal coil (antenna) inserted into the body due to the limitations using an external body coil at this magnet strength. MRI using a 3 Tesla magnet has a theoretical advantage over imaging at 1.5 Tesla of creating a signal twice as strong that can be received by the antennas, resulting in better pictures. The goal of this study is to make the MRI procedure more comfortable for patients by using an external coil instead of an endorectal coil. With this study, researchers also want to help patients' health care teams, the surgeons in particular. Researchers will assess the impact of prostate MRI, without an endorectal coil, done at 3 Tesla and with an external body coil on helping doctors decide which approaches to disease therapy might be best for patients as well as correlate patients' study images with all other clinical imaging
This is a retrospective/prospective Analysis of surgical outcomes of robotic prostatectomy.