Active clinical trials for "Prostatic Neoplasms"

The main purpose of this study is to determine the accuracy and feasibility (possibility) of Aixplorer® ShearWave Elastography (SWE™) Ultrasound System (made by SuperSonic Imagine, Inc.) for detecting prostate cancer in men undergoing radical prostatectomy.

The investigators will perform a study with 25 patients in whom the investigators have a strong suspicion of prostate cancer that has returned to the body after having an initial treatment. The major goal of the investigation is to see whether anti-[18F] FACBC PET-CT and MRI imaging individually will be useful in the detection of local and extraprostatic recurrence of prostate cancer. Routine blood test will be done on the day of the FACBC scan and one week later as required by the FDA. All patients will undergo biopsy of the prostate as clinically appropriate per standard of care. If either the FACBC or MRI scans indicate cancer recurrence, the subject's cancer site(s) will also be biopsied as clinically appropriate.

The ultrasound-guided biopsies of the prostate is the validated technique for the diagnosis of prostate cancer, the first human cancer and second leading cause of cancer death. Overall, in more than half of cases, prostate biopsies performed in search of a prostate cancer are negative. In this population, there is no consensus recommendation on how to care, leading to repeated invasive biopsies, potential sources of complications. The PCA3 urine test (ProgensaTM, GenProbe) is an innovative diagnostic tool to predict the positivity of prostate biopsies, especially in patients who had at least one negative biopsy. Proposed in clinical practice in France as a commercial kit, it is expensive and is not covered by health insurance. It is therefore essential to assess the medical and economic impact of its introduction into medical practice. The investigators propose to set up a study of high standard of proof, multicenter, based on recruitment of patients treated in hospitals. This working hypothesis is that the availability of the PCA3 test results would reduce the number of invasive biopsies performed incorrectly in patients already had at least one negative biopsy, thus improving the diagnostic strategy of prostate cancer.

This research is being done to see if an investigational radioactive drug called 18F-DCFBC can help us find cancer that has spread (metastatic disease) from its original site in people who have cancer in their prostate to other parts of their body.

The purpose of this study is to compare the outcomes of conventionally fractionated conformal radiotherapy with CF-CRT combined with either high-dose-rate brachytherapy or stereotactic body radiotherapy for intermediate or high-risk prostate cancer patients.

MultiSpectral 3 Tesla MRI (MS3TMRI) can increase the yield of Trans Rectal Ultrasound Biopsy (TRUSBx) to improve identification of patients on active surveillance requiring treatment.

Prostate cancer has been the most common cancer in men in Finland over the last ten years. Prostate-specific antigen (PSA) plays an important role in screening of prostate cancer. However, PSA has a limited sensitivity and specificity for prostate cancer detection. Commonly, the diagnosis of prostate cancer is done by transrectal ultrasonography (TRUS) guided biopsy. Due to the low accuracy of TRUS, a systematic biopsy is usually performed instead of targeted TRUS biopsy. As biopsy carries a risk of increase in complications, there is an increasing interest in developing more accurate non-invasive imaging modalities. This study will enroll 150 men with clinical suspicion of prostate cancer due to higher serum level of PSA than 2.5 ng/ml and/or abnormal digital rectal examination. Multiparametric magnetic resonance imaging (mpMRI) at 3 Tesla (T) magnetic field using surface coils will be used to non-invasively predict the presence or absence of prostate cancer. Targeted TRUS guided biopsy based on MRI findings will be performed in addition to routine twelve core TRUS biopsy. Moreover, selected serum and urine biomarkers as well as biomarkers extracted from fresh biopsy sample will be collected and correlated with the presence or absence of prostate cancer.

This is a single centre, single arm feasibility study of 18FCH PET-MR imaging for staging patients with high risk prostate cancer. Study Hypothesis: FCH-PET/MR will enable more accurate staging of patients with high risk prostate cancer as compared to conventional imaging.

The objective of the proposed study is to evaluate a new, molecular image directed, three-dimensional (3D) ultrasound guided biopsy system in human patients. The current biopsy uses ultrasound imaging as guidance. However, the procedure uses two-dimensional (2D) ultrasound images and has sampling errors thus some cancers can be missed from the standard 2D image-guided biopsy. In this study, an FDA-approved ultrasound device will be used to obtain three-dimensional (3D) images of the prostate from a commercially available ultrasound scanner. The clinician can use the 3D images to guide biopsy, record the core location of the biopsy sites, and perform re-biopsy to the same sites in a patient follow-up examination. This system can also use images from magnetic resonance imaging (MRI) or positron emission tomography (PET) and then fuse PET or MR images with 3D ultrasound images to guide the needle to a suspicious tumor target as seen on MRI or PET. We think that this fusion targeted biopsy technology will help to improve the accuracy of the current systematic biopsy approach for prostate cancer detection.

This is a feasibility, exploratory, and proof-of-concept study to evaluate rectal probe scintigraphy device (ProxiScanTM) to detect PSMA specific radiopharmaceutical agent (ProstaScint®) in patients with suspected primary prostate cancer. ProxiScanTM is a small cadmium zinc telluride (CST)-based compact gamma camera the size of a trans-rectal ultrasound (TRUS) developed by Hybridyne Imaging Technologies, Inc.To explore the adjunctive benefit/feasibility of PSMA distribution in the normal prostate versus prostate cancer gland utilizing TRUS and CT/SPECT hybrid imaging, biopsy negative patients will be considered as normal controls. Prostate cancer sextant biopsy histology results will be correlated with ProxiScanTM, TRUS, and pelvis planar and SPECT/CT. Our hypothesis is that it will be safe and feasible to utilize a rectal probe scintigraphy (ProxiScanTM) to detect PSMA specific ProstaScint® uptake in primary prostate cancer.