View clinical trials related to Prostate Cancer.
Filter by:Currently, in the clinical landscape of PCa, much of the AI work is limited to single-centre, single AI-architecture analyses and critically, on small data sets. ProCAncer-I will create a vast, diversified and multidisciplinary repository, fed by a large collection of mp-MRI. The participating clinical partners will congregate mp-MRI and clinical data, retrospectively and prospectively, from more than 17.000 PCa patients (11.000 retrospective and 6.000 prospective mp-MRI cases), including baseline examinations and follow up studies to form the ProstateNET dataset, counting more than 1.5 million image representations of the prostate (cancerous, non-cancerous and benign cases). ProCAncer-I aims to address the unmet clinical needs in PCa regarding precision diagnosis and personalised disease management with a disruptive paradigm change in clinical research, exploiting a novel multi centre collaboration, comprising a master-global model, boosted with MRI and AI modelling methodology. ProCAncer-I will deal with both retrospective and prospective data. Retrospective data will be collected and will be used to implement and train AI algorithms by other partners of the Consortium. Similarly, prospective data will be collected for the development of vendor specific models and external validation of AI models.
The aim of this study is to facilitate collection of real-world data to test and train the analytics engine for each prototype algorithm. Preliminary datasets will be generated to enable a dry run of the prototype algorithms to check their predictive functionality as part of simulated 'experimental' scenarios at each LifeChamps partner site. This preparatory work will be critical to the development of the LifeChamps platform, prior to progressing to a larger scale feasibility trial.
This study is to obtain acute dose safety and pharmacokinetics/pharmacodynamics (PK/PD) data in a dose-response trial in prostate cancer patients.
The AFFIRM trial tests the safety and clinical feasibility of MR-guided hypofractionated focal boost radiotherapy for patients with locally advanced prostate cancer. External beam radiotherapy combined with androgen deprivation therapy is considered as the treatment of choice for patients with locally advanced non-metastatic prostate cancer with seminal vesicle invasion.The long-term results of the multicentre phase III study (FLAME trial) showed that addition of an isotoxic focal boost to the intraprostatic lesion improves biochemical disease free survival in intermediate to high-risk patients without impacting toxicity and quality of life. This focal boost strategy is now proven for a conventional fractionation scheme (35 fractions). The current trend in radiotherapy for prostate cancer is (extreme) hypofractionation, reducing the number of fractions. For locally advanced prostate cancer, however, the data on extreme hypofractionation are scarce.
This is an observational case-control study to train and validate a genome-wide methylome enrichment platform to detect multiple cancer types and to differentiate amongst cancer types. The cancers included in this study are brain, breast, bladder, cervical, colorectal, endometrial, esophageal, gastric, head and neck, hepatobiliary, leukemia, lung, lymphoma, multiple myeloma, ovarian, pancreatic, prostate, renal, sarcoma, and thyroid. These cancers were selected based on their prevalence and mortality to maximize impact on clinical care. Additionally, the ability of the whole-genome methylome enrichment platform to detect minimal residual disease after completion of cancer treatment and to detect relapse prior to clinical presentation will be evaluated in four cancer types (breast, colorectal, lung, prostate). These cancers were selected based on the existing clinical landscape and treatment availability.
Surgical implantation of Lyopreserved Placental Tissue (LPT) is FDA approved and has been used extensively in wound care. The use is expanding and more recently, LPT has been used in the management of diabetic foot ulcers, acute and chronic surgical wounds, various fistulas and even as a nerve wrap on the common peroneal nerve. Surgical technique for nerve-sparing prostatectomy has evolved continuously since first described by Walsh in 1982 and is now commonly performed with robotic assistance. The investigators intend to study whether placement of LPT over the spared neurovascular bundle during nerve-sparing robotic prostatectomy will improve return to potency and/or continence after robotic radical prostatectomy for prostate cancer. Patients with a preoperative Sexual Health Inventory for Men (SHIM) score > 19 (moderate or high pre-op sexual function) planning to undergo robotic-assisted laparoscopic prostatectomy will be randomized to receive direct placement of LPT over the preserved neurovascular bundles vs standard of care. Patients will independently report erectile function and continence at 1 months, 3 months, 6 months and 1 year after surgery. Primary outcomes would include mean time to achieve potency, percentage of group achieving potency at each time point, and mean change in SHIM score. Secondary outcomes would include mean time to achieve continence. The investigators will also report any adverse events.
This is a single-arm feasibility study that is recruiting 40 patients with histologically-proven localized prostate cancer and MRI-defined lesion(s). Participants in this study will get MR-guided radiotherapy boost to MRI visible tumour before or after whole gland radiation. Participants will be followed-up as per standard of care schedule up to 5 years post-treatment.
The purpose of this study is to assess functional outcomes post operatively after the use of BioDFence® G3 during robotic radical prostatectomy.
This is a phase 2, multicenter, open-label study to evaluate the efficacy of abivertinib with abiraterone in patients with metastatic castration-resistant prostate cancer.
This study aims to make a first step towards ultra-hypofractionation for high-risk prostate cancer by proving the technical feasibility of margin reduction of the seminal vesicles by combining the intra-fraction fiducial tracking with an online re-planning workflow for each fraction to account for the inter-fraction seminal vesicle motion.