View clinical trials related to Prostate Cancer.
Filter by:This is a study for men who have locally-advanced prostate cancer and are eligible to undergo prostatectomy. Standard treatment is prostatectomy alone, but there is a chance that cancer may spread to other organs in the future, even after the prostate is removed. If this were to occur, standard treatment would be androgen deprivation therapy (ADT; hormone therapy that blocks testosterone) plus chemotherapy. Clinical trials suggest that neoadjuvant treatment (treatment given before primary therapy) may prevent a recurrence. The purpose of this research study is to assess the safety and benefit of ADT plus chemotherapy given before prostate removal.
The purpose of this study is to determine if the addition of apalutamide to ADT provides superior efficacy in improving radiographic progression-free survival (rPFS) or overall survival (OS) for participants with mHSPC.
The purpose of this study is to determine if using MRI can improve cancer detection by identifying potential cancer targets prior to TRUS-guided biopsy in populations that have previous inconclusive results from TRUS-guided biopsies.
To measure antigen-specific interferon-secretion by enzyme-linked immunospot (ELISPOT) assay, which measures antigen-specific interferon-secretion.
Background: Prostate cancer is difficult to detect using ultrasound. As a result, in case of suspicion of prostate cancer based on digital rectal examination (DRE) or Prostate Specific Antigen (PSA) level, it is currently recommended to perform "blinded" systematically distributed biopsies with 10-18 samples obtained from predefined locations in the gland. These so-called systematic biopsies (SB) may lead to improper patient management by (i) missing clinically significant cancer, especially in the anterior half of the gland that tends to be undersampled, (ii) inducing chance detection of clinically insignificant cancer foci that may result in overtreatments, (iii) undersampling the tumor foci and thus underestimating their volume and aggressiveness. Multiparametric Magnetic Resonance Imaging (mp-MRI) has yielded promising results in detecting aggressive (Gleason ≥7) prostate cancers. Several monocenter studies showed that targeted biopsies (TB) based on mp-MRI findings could detect significantly more aggressive cancers, reduce the diagnosis of clinically insignificant cancers, and better evaluate the aggressiveness of detected cancers than SB. However, these monocenter studies only provide low-level evidence and three recent independent reviews of literature concluded that there was a need for a robust multicenter trial evaluating the diagnostic yield of TB as compared to SB. This is particularly important since many academic and private centers in France already perform mp-MRI before prostate biopsy in daily routine. Therefore the risk is that this approach becomes the norm without being properly evaluated and it is crucial and urgent to perform a controlled multicentric study to provide high-level evidence as to whether mp-MRI should or should not be obtained before prostate biopsy. One controlled multicentric study has been published recently in which SB and TB had been obtained by two different operators in 95 patients. TB yielded a significantly higher detection rate for all prostate cancers (69% vs 59%, p=0.033) and for clinically significant cancers (67% vs 52%, p=0.0011). However, this study was limited by the fact that patients with negative mp-MRI were not included. Research hypotheses: There is currently no robust multicenter trial comparing prostate TB based on mp-MRI findings versus the current standard of care (SB). We propose a multicentre prospective trial comparing the results of SB and TB performed in the same patients by two independent operators. Our hypothesis is that TB detects aggressive (Gleason ≥7) cancers in a significantly higher percentage of patients than SB. Main objective: To compare the percentage of patients with "clinically significant cancer" (using definition A, i.e. cancer with Gleason score ≥7) detected by SB versus TB.
The aim of this study is to investigate safety and diagnostic performance of the 68Ga labeled PET tracer [68Ga]RM2 for detection and localization of primary prostate cancer confirmed by histopathology of the prostate as a standard of truth. This is an open-label, multi center PET/CT (positron emission tomography/computed tomography) non-randomized study. The study comprises 2 parts with an interim analysis after Part 1. In Part 1 a total of 30 subjects with biopsy-proven primary prostate cancer will be enrolled. Three strata of patients for the first part will be enrolled based on their pretreatment recurrence risk assessment according to the NCCN guidelines: 10 patients with low, 10 patients with intermediate and 10 patients with high pretreatment risk of recurrence.
The investigators aim to evaluate the feasibility of a larger clinical trial assessing an exercise program during the "teachable moment" in patients with prostate cancer and measuring its effect on tumor apoptosis signaling, lipogenesis and steroidogenesis. Participants will be randomized between a 4-12 week exercise program or to standard of care only. Participants will be assessed at screening, baseline (day 0), throughout the trial intervention (days 1-84), post-intervention visit (prior to radical prostatectomy) and final study visit 6-months post-radical prostatectomy. At each assessment, physical, biological samples and psychosocial assessments will take place.
This study will evaluate the efficacy and safety of intravenous (IV) pertuzumab in participants with hormone-refractory prostate cancer who have had no previous chemotherapy. Participants will be enrolled in two stages, the first (Cohort A) at a lower 420-mg dose and the second (Cohort B) at a higher 1050-mg dose based upon observations in Cohort A. Up to 50 participants may enter either cohort, for a total enrollment between 46 and 73 participants across 9 study centers.
The investigators will compare tumor marker levels, including PSA, in samples taken from a peripheral upper limb vein and the internal iliac veins. These will be collected from patients who are scheduled for prostatectomy as part of their standard of care for prostate cancer. A selective internal iliac vein sampling procedure will be performed in Interventional Radiology. Venous samples will be correlated with prostatectomy specimens. The aim is to predict the side of the prostate containing tumor.
Hypothesis: Treatment with Burixafor hydrobromide will effectively mobilize metastatic prostate cancer (PCa) cells (i.e. disseminated tumor cells; DTCs) into the blood from the bone marrow. It has been demonstrated that prostate cancer cells have been mobilized out of the bone marrow of mice utilizing an anti-CXCR4 strategy; making them more susceptible to chemotherapy.