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Browse 2,150 clinical trials for prostate cancer. Find studies that match your criteria and connect with research centers.
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NCT06991556
This Phase II study aims to evaluate efficacy and safety of the combination of JSB462 (also known as luxdegalutamide) at 100 mg and 300 mg once a day (QD) doses + abiraterone compared with an androgen receptor pathway inhibitor (ARPI, abiraterone or enzalutamide) in participants with metastatic Hormone Sensitive Prostate Cancer (mHSPC) and to select the recommended dose of the combination for phase III. Towards that end, the totality of the efficacy, safety, tolerability and PK data from participants randomized in the study will be evaluated
NCT03421782
This randomized pilot phase II trial studies how well exercise intervention with or without internet-based cognitive behavior therapy works in reducing fatigue in participants with prostate cancer that has spread to other places in the body and usually cannot be cured or controlled with treatment. Exercise intervention and internet-based cognitive behavior therapy may help to improve feelings of tiredness in participants with prostate cancer. The study originally included both prostate cancer and breast cancer participants, but due to low accrual of breast cancer participants, the breast cancer cohort was closed and the study continued with prostate cancer participants only.
NCT07412275
This study aims to evaluate the feasibility of performing a focal Targeted Microwave Ablation (TMA) procedure using Koelis TMA® under local anesthesia in patient with localized prostate cancer. Eligible patients will undergo the procedure under local anesthesia instead of general anesthesia or deep sedation as part of their routine clinical care. The primary objective is to assess the feasibility of completing the procedure under local anesthesia, defined by the proportion of patients in whom the procedure is successfully completed under local anesthesia. Secondary objectives include the assessment of safety, ease of performance, patient satisfaction, and the use of analgesic medication. This study is designed as a feasibility clinical investigation conducted in a routine clinical practice setting.
NCT07115914
This study is about adding PSMA PET (Prostate Specific Membrane Antigen- Positron Emission Tomography) to routine magnetic resonance imaging (MRI) scans to help detect prostate cancer recurrence in men who have undergone focal therapy for prostate cancer. PSMA PET and multiparametric (mpMRI are both imaging tests that help detect prostate cancer in the body. A PSMA PET scan, or prostate-specific membrane antigen positron emission tomography scan, is an imaging test that scans and takes pictures of the prostate. PSMA scans use a specialized radioactive imaging dye that sticks to the proteins that are typically found in prostate cancer cells. This imaging dye helps locate areas of prostate cancer anywhere in the body, both inside and outside prostate. An mpMRI, or a multiparametric (mp) MRI scan, is also an imaging test that scans and takes detailed pictures of the prostate. Unlike regular MRIs, an mpMRI produces a more detailed image of the prostate. Similar to PET scans, mpMRI scans also use an imaging dye that helps the pictures of the prostate appear clearer on scans. This study will be funded by Blue Earth Diagnostics, a molecular imaging company based in England.
NCT04489719
This study investigates how well radium-223 works in treating patients with castration-resistant prostate cancer than has spread to the bones (bone metastases). Prostate cancer is the most common cancer in men and the second leading cause of cancer death. Furthermore, many men with notably advanced disease have been found to have abnormalities in DNA repair. The purpose of this research is to study the role of a DNA repair pathway in prostate cancer, specifically in response to administration of radium-223, an FDA-approved drug known to cause DNA damage to cancerous cells. Understanding how defects in the DNA repair pathway affects radium-223 treatment of prostate, may help doctors help plan effective treatment in future patients.
NCT07407959
This study evaluates whether newly developed non-FDA approved image processing techniques \[Adaptive Image Reconstruction (AIR Recon) Deep Learning (DL) and Sonic DL\] can provide improved quality and decreased time compared to current scanning techniques.
NCT06778863
Phase 1 dose escalation and expansion study of CLSP-1025, a first-in-class HLA-A\*02:01 specific T cell engager (TCE) targeting solid tumors that harbor the p53 R175H mutation.
NCT01543659
The purpose of this study is to define the safety and accuracy of 89Zr-DFO-huJ591 PET scans. By improving our ability to find cancer cells, the investigators hope to be able to improve treatment for patients in the future. The study doctors want to determine whether a new kind of scan, called a 89Zr-DFO-huJ591 PET scan, can specifically see prostate cancer that has spread to other parts of the body, especially the bones. The study doctors will also look at how the 89Zr-DFO-huJ591 reacts with the body and how long it stays in the body. The investigators will also ask the patient to have a biopsy performed. The study doctors will compare the findings the investigators see on the scans with findings on the optional tissue biopsy. Finally, the investigators will compare the pictures from a 89Zr-DFO-huJ591 PET scan with those of a standard PET scan (called FDG PET) and standard CT scans or magnetic resonance (MRI) scans or bone scans, depending on which standard scans the doctor has ordered. PET scanning uses a small amount of radiation attached to a molecule that is taken up by the cancer. In this trial, the patient will undergo two types of PET scans. One uses FDG. FDG is a standard tracer for PET scans. The patient will also undergo another type of PET scan that is experimental. This experimental PET uses a radioactive protein called J591. The radiation source is a type of metal called zirconium-89 (89Zr). The whole tracer, J591 plus the 89Zr, is abbreviated as 89Zr-DFO-huJ591. This tracer is what is being studied. The tracer used in a scan should find where the cancer is in the body.
NCT04848337
Eligible patients will be treated with the combination of lenvatinib and pembrolizumab. A cycle equals 21 days and therapy will continue until radiographic progression, intolerable toxicity, or patient/physician wishes to discontinue protocol therapy. A maximum of 35 cycles may be administered. On Day 1, when both pembrolizumab and lenvatinib are administered, patients should take the lenvatinib per their normal routine.
NCT06335914
This study will use Prostate Specific Membrane Antigen (PSMA) and (18)F-Fluorodeoxyglucose Positron Emission Tomography (FDG PET) imaging in patients with advanced prostate cancer to learn about tumor biology across disease stages and during treatment. This may help with treatment selection and potential response monitoring in the future.
NCT04558866
This is a multi-center, open-label, phase II, single-arm trial evaluating combination of darolutamide and high testosterone doses - extreme bipolar androgen therapy (ExBAT) - in patients with metastatic castration-resistant prostate cancer (mCRPC).
NCT07407686
Earlier work explored barriers and facilitators to accessing prostate cancer screening, particularly in underserved communities, and provided valuable insights to build upon. This study will explore perspectives on how genetic risk for prostate cancer is explained and understood through in-depth interviews with members of underserved communities. Findings from this work, alongside earlier results, will be used to co-design clear and accessible digital educational resources in collaboration with community members and relevant charities. Participation in cancer screening programmes in the UK varies, with differences linked to socioeconomic status, ethnicity and health literacy. Similar inequalities are seen in access to prostate cancer genetics services, indicating a need for improved engagement. Successful integration of genetics into prostate cancer care requires clear and inclusive information about genetic testing processes, possible outcomes and interpretation of results. Currently, there are limited resources explaining genetic risk for prostate cancer in an accessible way. Co-production with representatives from underserved communities will ensure that educational materials are understandable, relevant and acceptable to all.
NCT05320406
This clinical trial investigates the impact of prostate cancer treatment, specifically androgen deprivation therapy (ADT), on the heart and coronary vessels among men with localized, non-metastatic prostate cancer undergoing definitive radiation therapy and concomitant ADT. Recently, cardiovascular toxicity from hormone therapy that is routinely used for prostate cancer (e.g. leuprolide) has emerged as a concern, yet studies identifying who is at risk and the mechanism of cardiac damage are lacking. Additionally, a new hormone therapy drug, relugolix, has recently been Food and Drug Administration (FDA)-approved and may reduce toxicity to the heart. This trial intends to investigate the mechanism of cardiovascular toxicity from ADT, investigate the mechanism by which relugolix reduces cardiovascular toxicity, and identify predictive biomarkers to improve individualized risk-assessment for cardiovascular toxicity from ADT.
NCT07407608
Published clinical evidence confirms that a single dose of 24 Gy provides unprecedented long-term local control in primary and metastatic prostate cancer with safe toxicity profiles, provided that exposure of surrounding healthy tissues is critically assessed with fulfillment of strict constraints and dose distribution is accomplished using image guidance and tracking tools. In the present trial, intermediate unfavorable and selected high-risk organ-confined prostate cancer patients will undergo Single Dose Radiation Therapy (SDRT) With Focal Boost to the MRI-defined Macroscopic Tumor Volume by means of image-guided volumetric intensity-modulated arc radiotherapy (IGRT-VMAT) and state-of-the-art treatment-planning and quality assurance procedures. Androgen Deprivation Therapy (ADT) type and duration has been set as per standard of care, in accordance with current recommendations and guidelines. The results of the study will enable us to find out if the new, shorter treatment (1 doses of radiotherapy), has a similar level of side effects as the 5 dose treatment and is suitable for further study.
NCT06440005
AGX101 is an antibody-drug conjugate (ADC) therapy for tumor-forming cancers. The purpose of this study is to learn about AGX101 effects and safety at various dose levels in an all-comers advanced solid cancer patient population. AGX101will be administered intravenously. Dosing of AGX101 will be repeated once every 3, 6 or 9 weeks. Participants may continue study treatment until disease progression, unacceptable toxicity, or consent withdrawal. Subjects will attend an end of treatment visit and will receive two safety follow-up telephone contacts up to 90 days following the last dose of study drug.
NCT06627530
A Randomized Trial of Neoadjuvant Leuprorelin, Darolutamide or Both Prior to Radical Prostatectomy for Intermediate or High-risk Prostate Cancer. Prospective, randomized, parallel group, open-label with blinded endpoint adjudication multicenter clinical trial.To assess, among patients with unfavorable intermediate to high-risk prostate cancer, whether a neoadjuvant combined treatment with leuprorelin (Leuprorelin) and darolutamide is superior to monotherapy in terms of complete or almost complete pathological response.A total of 144 patients with unfavorable intermediate to high-risk prostate cancer scheduled for radical prostatectomy with extended pelvic lymph node dissection will be randomized 1:1:1 to oral darolutamide, SC leuprorelin (Leuprorelin) or both (48 patients per arm) for 24 weeks.
NCT05471128
The purpose of this study is to find out how best to detect clinically significant lesions of prostate cancer by using micro-ultrasound technology (ExactVu) and by multiparametric magnetic-resonance imaging (mpMRI).
NCT06733350
This phase IV trial studies the effects of testosterone replacement therapy (TRT) on treatment outcomes in hypogonadal men with prostate cancer that has not spread to other parts of the body (localized) and who are on active surveillance (AS). AS in prostate cancer involves closely watching the patient's condition through regular physical exams and blood tests, but not giving treatment unless there are changes in test results. It can be a practical alternative to treatment in localized prostate cancer. Hypogonadal men have low testosterone associated with symptoms such as low libido and erectile problems. TRT can be used to treat hypogonadism by increasing testosterone levels, which may improve associated symptoms. TRT is often not used in men with prostate cancer due to concerns it may lead to the cancer growing or spreading. This may lead hypogonadal men to have a poor quality of life or to discontinue AS. TRT may improve treatment and quality of life outcomes in hypogonadal men with localized prostate cancer on active surveillance.
NCT07231627
Use of AI algorithm for PCa detection is feasible, and AI-informed biopsies (AI-targeted and perilesional biopsy) improves csPCa detection in patients with indeterminate MRI lesions and in patients with low-risk MRI lesions and high-risk clinical features.
NCT07391982
The goal of this clinical trial is to find out whether lowering the radiation dose to parts of the prostate without visible tumor on MRI can reduce side effects while still effectively treating prostate cancer in men with low or intermediate-risk prostate cancer. The main questions it aims to answer are: * Does reducing the radiation dose to healthy prostate tissue lower the risk of bowel and urinary side effects? * Can we maintain good cancer control by keeping a high dose for MRI-visible tumor areas? Researchers will compare two treatment approaches: * One group receives a uniform high dose to the entire prostate. * The other group receives a lower dose to healthy prostate tissue and a high dose only to visible tumor areas. Participants will: * Receive two sessions of MRI-guided radiotherapy using an MR-Linac. * Complete questionnaires about urinary, bowel, and sexual health before and after treatment. * Have follow-up visits to monitor side effects and PSA levels for up to 2 years.
