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Browse 1,222 clinical trials for prostate cancer. Find studies that match your criteria and connect with research centers.
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NCT05075577
This is a Phase 1/2 study of EPI-7386 orally administered in combination with enzalutamide in subjects with mCRPC. Phase 1 of the study will be a single-arm dose escalation study of EPI-7386 in combination with a fixed dose of enzalutamide. This portion of the study will primarily evaluate the safety and tolerability of the drug combination and establish the RP2CDs for EPI-7386 and enzalutamide when dosed in combination. In addition, blood sampling will be conducted for PK evaluation to assess the potential DDI between the two drugs. Once the RP2CD for each drug has been established, Phase 2 of the study will commence. Phase 2 is a two-arm, randomized (2:1), open-label study. Approximately 120 subjects will be randomized 2:1 to: * Group 1: EPI-7386 at the RP2CD + enzalutamide(depending on the results of the Phase 1) (n=80) * Group 2: Enzalutamide single agent (n=40) The planned dose of enzalutamide and EPI-7386 for the combination arm will be those determined in the Phase 1 of this study based on safety and exposure data. Subjects may remain on study treatment as long as they are tolerating treatment without disease progression based on RECIST v1.1 and/or PCWG3.
NCT06850545
KuPSMALu-trial is an observational study for patients treated with 177LuPSMA-I\&T in Kuopio University Hospital, Finland. Study focuses on efficacy, safety and biomarker research.
NCT06783829
This is an open label, multi-center, multiple dose Phase I study to evaluate the safety, tolerability, pharmacokinetics and efficacy of SHR-4394 injection in subjects with prostate cancer.
NCT02526368
This pilot clinical trial studies how well magnetic resonance spectroscopic imaging (MRSI) with hyperpolarized carbon 13 (13C) pyruvate alone or in combination with 13C 15N2 Urea works in finding prostate cancer that exhibits poorly differentiated or undifferentiated cells (high-grade) and that is restricted to the site of origin, without evidence of spread (localized) in patients undergoing radical prostatectomy. Diagnostic procedures, such as MRSI with hyperpolarized carbon (13C) pyruvate, may aid in the diagnosis of prostate cancer and in discriminating high-grade from low-grade prostate cancer and benign adjacent prostate tissue
NCT05131815
The purpose of this prospective, interventional, single-arm pilot study is to evaluate whether virtually delivered group-based physical activity is feasible for adolescent and young adult (AYA) cancer survivors. AYAs who were diagnosed with cancer and have completed cancer treatment will be recruited for this study. This study will enroll 20 participants in total and will last approximately 3 months.
NCT06818682
Aim of the study to improve the treatment of high-risk non-metastatic prostate cancer by comparing reduced duration of hormone therapy to the standard duration of two years, when combined with curative intent standard of care radiotherapy to prostate and pelvic nodes. The reduced duration will be intensified with addition of newer hormonal agents such as abiraterone or enzalutamide tablets, which have been shown to improve disease control in locally advanced prostate cancer. This is hoped to reduce the side effects of prolonged hormone therapy, while maintaining similar rates of disease control and survival. The effectiveness of both treatment approaches will be assessed in terms of cancer control, survival, and overall quality of life of patients. Additionally, the study will examine the side effects associated with each treatment regimen, which could provide valuable insights into impact of treatment duration on patients. If a person decides not to participate, they will still receive the standard two years of hormonal therapy and radiation therapy outside the study. This ensures that all patients receive appropriate care regardless of their involvement in the research. Participation is voluntary, and will not affect patient care.
NCT06242119
Positron emission tomography (PET), an advanced diagnostic imaging technique, exploits the annihilation of positrons (e+) to delineate pathological alterations within diseased tissues. Integral to PET scanners are detector systems that transform gamma photons into fluorescent photons, thereby gleaning insights into the energy, time, and spatial distribution of gamma photons emanating from positron-emitting radiopharmaceuticals. Conventional PET scanners, bear a significant financial burden primarily due to their reliance on LSO (lutetium oxyorthosilicate) or LYSO (lutetium yttrium oxyorthosilicate) scintillation crystals. The exorbitant cost and limited availability of these crystal scintillators impede the widespread adoption of PET scanners. In a departure from conventional PET technology, the prototype J-PET scanner employed in this trial employs plastic scintillators, characterized by unique physical properties. This prototype is further equipped with bespoke software enabling three-photon imaging based on the annihilation of ortho-positronium (o-Ps) generated within diseased tissue. This study delves into the clinical applicability of PET scanners employing plastic scintillators, particularly investigating the feasibility of PET imaging using plastic scintillators where gamma quanta interact by mechanisms other than the photoelectric effect. Furthermore, this study endeavors to contemporaneously acquire and analyze data related to the lifetime of ortho-positronium (o-P) atoms emanating from routine radiopharmaceuticals. Additionally, it seeks to validate the utilization of a novel diagnostic indicator, termed the \"positron biomarker,\" through a prospective study, comparing its efficacy to conventional diagnostic PET scanning methodologies.
NCT03400150
The BioProtect Balloon Implant™ System is intended to temporarily position the anterior rectal wall away from the prostate during radiotherapy for prostate cancer and in creating this space it is the intent of the balloon to reduce the radiation dose delivered to the anterior rectum. The balloon composed of a biodegradable material that maintains that space for the entire course of prostate radiotherapy treatment and is completely absorbed by the patient's body over time.
NCT06172283
This is a a pilot study to assess the feasibility of intermittent caloric restriction (plus a plant-enriched diet optionally) in prostate cancer patients receiving androgen deprivation therapy. Study feasibility measures will include enrollment rate, drop-out rate and compliance with diet measured by self-reports.
NCT05110495
The WINGMEN trial aims to understand how a hormone-like protein called insulin-like growth factor (IGF) helps prostate cancers grow and become aggressive. IGF is required for normal development, and also helps cancers grow and spread. Men with high blood IGF are at increased risk of developing prostate cancer, and tall men are more likely to get aggressive prostate cancer. The WINGMEN trial will recruit 30 men with prostate cancer who have been offered an operation to remove the prostate. Most men have to wait 4-5 weeks between a decision to have prostate removal surgery, and actually having the operation. In this 4-5 week window we will offer treatment with a new IGF-blocker drug called xentuzumab. The drug is provided by Boehringer Ingelheim and the trial is funded by Prostate Cancer UK. Xentuzumab will be given as an outpatient by once weekly intravenous infusion (drip) in the Early Phase Clinical Trials Unit, Oxford Cancer Centre, Churchill Hospital. In other trials, xentuzumab is being tested in patients with advanced cancer, and is proving to be well-tolerated. After the 4-week treatment, WINGMEN trial patients will have routine prostate removal surgery. Samples of blood and prostate cancer that are surplus to diagnostic need will be taken from the diagnostic prostate biopsy (pre-xentuzumab) and the cancer removed at surgery (after xentuzumab) for research tests. These samples will be compared to measure how effectively xentuzumab reduces signs of tumour growth, and identify which genes and proteins are switched on or off by xentuzumab, and which may therefore be important in helping IGF promote prostate cancer growth. The information we get from the WINGMEN trial may help us to improve treatment of men with prostate cancer, with the long-term aim of reducing the risk of aggressive prostate cancer
NCT04249947
An open-label, multi-center, single and cyclic ascending dose study of P-PSMA-101 autologous CAR-T cells in patients with mCRPC and SGC.
NCT06830265
Prostate biopsy is the definitive examination to establish the diagnosis of prostate cancer, but up to 40% of these biopsies overestimate or underestimate the severity of the disease. A novel biopsy needle system captures substantially more tissue than standard of care needles, but it is important to assess the retrieval of tissue for pathologic analyses. This study will compare quality and quantity of tissue retrieved by both systems. Further, tissue will be analyzed using computational pathology algorithms for atypical small acinar proliferation and Gleason scores in terms of tissue area, tissue length, and tissue tortuosity.
NCT05104515
OVM-200 will be tested in humans for the first time in Study OVM-200-100. Up to 52 patients aged 18-75 with prostate, lung or ovarian cancer will be enrolled in the Study to find out if OVM-200 is safe to continue studying it in patients with cancer. The Study consists of 2 parts: a dose escalation part and a dose expansion part. In the dose escalation part, up to 4 increasing doses of OVM-200 will be evaluated in small groups of cancer patients to find the recommended dose for the expansion part. The recommended dose of OVM-200 will then be given to cancer patients in the dose expansion part to confirm safety and understand how effective it is against their disease and if there are any side effects. Patients who agree to participate in the Study and pass screening will receive 3 doses of OVM-200 in total at 2-week intervals as an injection under the skin. After completing treatment with OVM-200 patients will be followed up for side effects and to monitor changes in their cancer. Patients will stay on the Study for about 6 months in total during which they will have 10 hospital visits. The Study will run at around 5 sites in the UK.
NCT06827080
161Tb-NYM032 is a radiopharmaceutical labeled with a PSMA ligand, used for the treatment of metastatic castration-resistant prostate cancer, which is needed for clinical trial to be conducted.
NCT06259279
HIP is a randomized controlled trial. The aim is investigate the effect, safety and feasibility of brief, high-impact exercise targeting bones in patients with prostate cancer and bone metastases. Furthermore, to investigate the effects of the intervention on bone status (bone mineral density) and body composition, physical function and performance, patient reported quality-of-life outcomes, falls and hospitalizations. The effects of resistance training on the antitumor immunity will be assessed in the peripheral blood and tumor biopsies (HIPimmune).
NCT03665922
This study will test whether oral intake of a dietary supplement called BroccoMax®, which is a special blend of broccoli extract containing a chemical called sulforaphane (hereafter abbreviated as SFN), may result in changes in chemicals that feed prostate cancer. BroccoMax® is available over the counter.
NCT06737588
The goal of this study is to evaluate the diagnostic value of different ADC values (incuding ADCmin, ADCmean, ADCratio and ADCrange) of bpMRI in patients with PI-RADS 3-5. The main aim is to evaluate whether different ADC values improve the diagnosis of clinically significant prostate cancer (Gleasonscore≥3+4, ISUP grade ≥2) and any-grade prostate cancer (Gleasonscore≥3+3, ISUP grade ≥1).
NCT06449781
Single-center, non-commercial phase 2 clinical trial to evaluate 177Lu-PSMA as a systemic adjuvant treatment in patients with high and very high risk prostate cancer after radical treatment using locoregional teleradiotherapy and hormone therapy
NCT06508567
This is an interventional, single-centre, single-arm, non-randomized, prospective, feasibility trial investigating salvage MR-guided High-Dose-Rate brachytherapy for prostate bed recurrence after postoperative radiotherapy.
NCT05680675
This study is designed to obtain positron emission tomography with x-ray computed tomography (PET/CT) imaging data with each tracer pair, providing the imaging data needed to develop new simultaneous dual-tracer imaging techniques and processing algorithms for these tracer pairs.
