Active clinical trials for "Prostatic Neoplasms"

The study aims to develop educational media interventions to prepare Latinx Spanish-speaking radiation oncology patients for a course of breast or prostate cancer radiation therapy and to foster receptivity and informed decision-making around cancer clinical trial participation.

This is a multi-centre, double-blind, randomized phase III trial comparing metformin to placebo in patients with advanced prostate cancer starting (or have recently started) androgen deprivation therapy (ADT).

Single-center, prospective, diagnostic trial in radically treated patients with biochemical recurrence of prostate cancer. Patients with radically treated prostate cancer with biochemical relapse and negativity of all traditional morphological and functional imaging (transrectal ultrasound, bone scan, 18F-FMC PET/CT, CT/MRI) or doubtful imaging of 2-deoxy-2-[fluorine-18] (18F)-fluoromethylcholine (FMC) PET/CT will receive a Gallio-68 (68Ga)- Prostate Specific Membrane Antigen (PSMA) Positron Emission Tomography (PET)/Computed Tomography (CT) scan.

Prostate cancer (PC) is the third most common cause of cancer death in men. Most patients with localized PC will be cured with surgery or radiation therapy, but up to 35% of patients will have their PC return. Whether it has returned locally or distantly determines which type of treatment they will receive. Current conventional imaging modalities have limitations particularly at low prostate-specific antigen (PSA) levels. This study proposes to use Fluorine-18-2-(3-(1-carboxy-5-[(6-[18F]fluoro-pyridine-3-carbonyl)-amino]-pentyl)-ureido)-pentanedioic acid (18F-DCFPyL) Positron Emission Tomography / Computer Tomography (PET/CT) scans which targets prostate-specific membrane antigens (PSMA) to detect where in the body the PC has recurred.

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.

The purpose of this study is to test two different ways to help men with sexual rehabilitation.

To evaluate the efficacy of LHRH agonist with adjuvant pelvic radiation therapy in post radical prostatectomy patients with high risk pathological features for failure. To determine the freedom from biochemical (maintenance of a PSA less than nadir + 2 ng/ml) and clinical progression rate at 5 years.

This trial studies the side effects and best way to perform genetic testing in predicting biomarkers of recurrence in patients with prostate cancer undergoing surgery. Collecting and storing samples of tissue, blood, and other body fluids from patients to test in the laboratory and collecting information about the patient's health and treatment may help doctors learn more about cancer and help predict the recurrence of prostate cancer

Prostate cancer is now the most common cancer in men in the Western world. In the United Kingdom (UK), there were over 52,000 new cases diagnosed in 2016-2018 and a lifetime risk of 1 in 8. Prostate cancer (PrCa) can run in some families and research studies have identified several genetic changes in Caucasian populations that are thought to increase the risk of developing prostate cancer. Other studies have shown that men from certain ethnic groups also have a higher risk of prostate cancer, and this includes men of black African or black African-Caribbean ancestry. This study aims to look at men with a higher risk of prostate cancer based on their ethnicity, family history and/or genetic predisposition to see whether any of these genetic changes are present in their DNA (genetic material) and whether this could be a helpful screening tool in prostate cancer screening programmes. It is thought that many genetic changes are involved in the development of prostate cancer and research is being carried out worldwide to identify these genetic changes. Some of these changes may cause a very slight increase in prostate cancer risk while others may cause a much larger increase in risk of developing prostate cancer. The investigators will invite (i) men of any ethnicity with a family history of prostate cancer; (ii) men of black African or black African-Caribbean ancestry; and (iii) men of any ethnicity with a known genetic predisposition to having prostate cancer (e.g., being known to have inherited a gene mutation that increases risk of prostate and/or being known to be in the top tenth percentile of the polygenic risk score (high PRS score prior to enrolment) for targeted prostate screening (Prostate Specific Antigen (PSA) testing, MRI and a biopsy of the prostate gland) and genetic profiling. The outcome of these prostate cancer screening investigations will be compared with the genetic profiles of those taking part in the study in order to look for certain genetic changes in the gene code that are thought to increase prostate cancer risk. This research will help us to determine what the role of such genetic profiling is in a prostate cancer screening programme and if it helps identify men at high prostate cancer risk.

Prostate cancer is now the most commonly diagnosed tumor among men in the United States. Most patients have tumors that are confined to the prostate gland at diagnosis and are suitable for treatment with surgery or radiotherapy (RT) that is aimed at curing the disease. Nevertheless, despite recent improvements in these treatments, a large number of men continue to die of prostate cancer. These patients often have spread of tumor to other areas of the body, and are treated with hormones that produce initial tumor shrinkage. However, over time the tumor learns to grow despite continued hormonal treatment. Effective therapy for patients with hormone-resistant prostate cancer is lacking and patients often deteriorate quickly and die. Thus, there is a need for better treatment that cures prostate cancer at an early stage, and a better understanding of the biology of prostate cancer specifically with respect to factors that determine the effectiveness of RT, the spread of tumor and the development of hormone-resistant disease. Low levels of oxygen (hypoxia) are known to exist in many human tumors, and studies have shown that hypoxic tumors are less likely to be cured by RT. In addition, hypoxia may lead to lower cure rates following surgery, spread of cancer to other areas of the body, and changes in the genetic characteristics of the cancer cells that cause them to behave more aggressively. The importance of hypoxia in prostate cancer has not previously been evaluated. The aims of this study are to determine how often hypoxia occurs in early prostate cancer and whether hypoxia influences the success of RT, tumor spread beyond the prostate to bones and other organs and the development of hormone-resistant disease. Patients will have tumor oxygen levels measured using a special fine-needle electrode system prior to beginning treatment with either RT or the combination of hormones plus RT. The measurements will be made through the rectum using ultrasound to position and guide the electrode. A biopsy of the tumor will be obtained at the site of the measurements, and this will be used to determine how oxygen influences changes in the genetic character of prostate cancer cells. A total of 195 patients will be evaluated in this way over 3 years. This study will provide unique information about the behavior of prostate cancer, which may help explain why currently available treatments including surgery, RT and hormones fail to cure patients. Assuming that this study shows hypoxia to be important in prostate cancer, future work will focus on new anti-hypoxia treatments to be used in combination with surgery or RT with the aim of overcoming this obstacle and improving cure rates.