10 Clinical Trials for Various Conditions
This research project is testing a new compound which may potentially detect specific cancer lesions in men with prostate cancer.
A prospective, Phase 3, multi center, single-arm, imaging study investigating the safety and diagnostic performance of rhPSMA 7.3 (18F) Positron Emission Tomography (PET) ligand in men with suspected prostate cancer recurrence based on elevated Prostate-specific antigen (PSA) following prior therapy.
The objective of the study is to evaluate 68Ga PSMA 11 PET/MRI and 68Ga RM2 PET/MRI for biopsy guidance in patients with suspected prostate cancer.
This pilot clinical trial studies transrectal magnetic resonance imaging (MRI)-guided biopsy to see how well it works in identifying cancer in patients with suspected prostate cancer who are scheduled to undergo standard biopsy. Transrectal MRI-guided biopsy uses a thin needle inserted through the rectum into the prostate and takes a sample of tissue, guided by MRI. MRI uses magnets to take pictures of the prostate and may be able to identify cancer. Transrectal MRI-guided biopsy may be more accurate and cause patients less pain than standard ultrasound-guided biopsy. It is not yet known whether transrectal MRI-guided biopsy is more effective than ultrasound-guided biopsy in identifying prostate cancer.
In standard clinical care, the prostate is imaged by magnetic resonance imaging (MRI) which is a procedure to take pictures of body structures by using a strong magnetic field and radio waves. The strength of the magnet used is expressed in the unit Tesla (T); a higher Tesla number means the magnet has stronger pull. Standard magnetic resonance imaging of the prostate uses a magnet 1.5 Tesla strong as well as a specialized endorectal coil (antenna) inserted into the body due to the limitations using an external body coil at this magnet strength. MRI using a 3 Tesla magnet has a theoretical advantage over imaging at 1.5 Tesla of creating a signal twice as strong that can be received by the antennas, resulting in better pictures. The goal of this study is to make the MRI procedure more comfortable for patients by using an external coil instead of an endorectal coil. With this study, researchers also want to help patients' health care teams, the surgeons in particular. Researchers will assess the impact of prostate MRI, without an endorectal coil, done at 3 Tesla and with an external body coil on helping doctors decide which approaches to disease therapy might be best for patients as well as correlate patients' study images with all other clinical imaging
This study aims to assess the feasibility of magnetic resonance (MR) guided prostate biopsy using a needle holder frame. This frame is used to help position the needle used for the biopsy. The feasibility in this study is defined as whether the needle holder frame enables accurate tissue sampling from a suspicious region in the prostate found on an MR image. If it does, a biopsy can be carried out with the needle holder frame safely in a clinical routine. The study will be conducted during a routine MR-guided prostate biopsy procedure with an investigational needle holder frame instead of a conventional needle-guiding template.
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.
This is a prospective, open-label Phase 3 study to evaluate copper Cu 64 PSMA I\&T injection for PET/CT imaging in patients with recurrent prostate cancer after radical prostatectomy or radiation therapy.
This study evaluates the diagnostic performance and safety of 18F-DCFPyL (PyL) PET/CT imaging in patients with suspected recurrence of prostate cancer who have negative or equivocal findings on conventional imaging.
This randomized phase IIA trial studies how well antiandrogen therapy works with or without axitinib before surgery in treating patients with previously untreated prostate cancer that is known or suspected to have spread to lymph nodes. Androgens can cause the growth of prostate cancer cells. Antihormone therapy, such as antiandrogen therapy may lessen the amount of androgen made by the body. Axitinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. It is not yet known if antiandrogen therapy is more effective with or without axitinib before surgery in treating patients with prostate cancer.