173 Clinical Trials for Various Conditions
The purpose of the study is to demonstrate superiority of Saruparib (AZD5305) relative to placebo added to a standard radiation therapy (RT) + androgen deprivation therapy (ADT) regimen by assessment of metastases-free survival in participants with high-risk and very high-risk localised/locally advanced prostate cancer with a breast cancer gene mutation (BRCAm).
The goal of this clinical trial is to learn if the vaccine FK-PC101 works to delay or prevent the return of prostate cancer in men who have had surgery to remove their prostate cancer. It will also learn about the safety of FK-PC101. The main questions it aims to answer are: Does FK-PC101 delay or prevent the return of prostate cancer following surgery? What medical problems do participants (subjects) have when taking FK-PC101? Researchers will compare FK-PC101 to current treatment practice to see if FK-PC101 works to prevent or delay the return of prostate cancer following surgery to remove the prostate cancer tumor. Subjects will: Have a sample of the prostate cancer tissue collected at the time of surgery to remove this tissue from the body. This tissue will then be used to create a personalized vaccine that is specific to your prostate cancer. If randomly selected to receive the vaccine, subjects will receive the vaccine up to 7 times over a 6-month period. In addition to the treatment visits for those randomized to receive FK-PC101, there will be up to 4 follow up visits to the clinic over a 22-month (nearly 2 year) period. For subjects randomized to receive current treatment practice, they will be asked to attend up to 8 visits over 22 months to track if there is any detectable cancer. Should their prostate cancer return within a year following surgery, they will be eligible to receive FK-PC101, which already had been produced and thus no additional tumor tissue would need to be obtained. Subjects in both study arms will have regular blood tests and scans to test whether their prostate cancer has returned.
This phase II trial tests how well relugolix and enzalutamide, in combination with radiation therapy, works in treating patients with very high risk prostate cancer. Relugolix is a form of androgen deprivation therapy. It prevents the release of testosterone, a hormone required to sustain prostate growth. Reducing testosterone levels may inhibit the proliferation of prostate tumor cells that need testosterone to grow. Enzalutamide is an androgen receptor signaling inhibitor. It inhibits the activity of prostate tumor cell receptors, which may reduce proliferation of prostate tumor cells. Radiation therapy uses high energy x-rays, particles, or radioactive seeds to kill cancer cells and shrink tumors. Adding relugolix and enzalutamide to radiation therapy may be more effective at treating patients with very high risk prostate cancer than giving any of these treatments alone.
This clinical trial evaluates the use of an imaging scan (18F-rhPSMA-7.3 positron emission tomography \[PET\]/magnetic resonance imaging \[MRI\]) for identifying patients who are at risk of having their disease spread to the lymph nodes in those undergoing radical prostatectomy for prostate cancer that has not spread to other parts of the body (localized). Prostate specific membrane antigen (PSMA) PET/computed tomography (CT) has emerged as an option to stage newly diagnosed high risk prostate cancer patients. PSMA PET/CT has demonstrated improved diagnostic accuracy for identifying metastasis. PET is procedure in which a small amount of radioactive glucose (sugar) is injected into a vein, and a scanner is used to make detailed, computerized pictures of areas inside the body where the glucose is used. Because cancer cells often use more glucose than normal cells, the pictures can be used to find cancer cells in the body. MRI is procedure in which radio waves and a powerful magnet linked to a computer are used to create detailed pictures of areas inside the body. These pictures can show the difference between normal and diseased tissue. This study may help researchers learn whether 18F-rhPSMA-7.3 PET/ MRI may improve predicting which patients are at risk of lymph node metastases and who are suitable candidates for pelvic lymph node dissection in patients with localized high-risk prostate cancer undergoing radical prostatectomy.
The goal of this clinical trial is to test how effective and safe it is to use a combination of two medications, relugolix and enzalutamide, in patients with advanced prostate cancer. We want to see if this combination can help improve the chances of curing the cancer and make the patients live longer without the cancer getting worse. The main questions we want to answer in this study are: * Can using relugolix and enzalutamide together help increase the chances of curing high-risk advanced prostate cancer? * Does this combination treatment help patients live longer without their cancer getting worse? Participants in this study will be asked to take relugolix and enzalutamide as part of their cancer treatment. They will also undergo Radiation Therapy or prostatectomy, which are standard treatments for this type of cancer.
This phase II trial evaluates the best duration for relugolix to be given in combination with radiation therapy when treating patients with high risk prostate cancer. Prostate cancer is a hormonal influenced cancer. Part of the usual treatment for patients with prostate cancer is androgen deprivation therapy (ADT). ADT is used to lower the amount of testosterone in the body, because testosterone appears to help prostate cancer grow. Relugolix works to reduce testosterone levels, which may inhibit proliferation of prostate cancer cells. It is approved by the Food and Drug Administration to treat prostate cancer. Adding relugolix to standard radiation therapy might work better and have fewer side effects than prior forms of hormonal therapy, but the optimal duration of relugolix in combination with radiation is not known.
The aim for this study is to assess the diagnostic performance of 64Cu-SAR-bisPSMA PET to detect regional nodal metastases.
This is a pilot study to improve rates of germline genetic testing for black patients with aggressive prostate cancer as recommended by the updated guidelines by the National Cancer Comprehensive Network (NCCN) in 2018. In this study, consented patients will undergo a low-risk intervention of an educational session with a trained staff member on germline testing in prostate cancer and, if agreeable, subsequent germline cancer genetic testing via a commercial lab test.
This phase III trial compares stereotactic body radiation therapy (SBRT), (five treatments over two weeks using a higher dose per treatment) to usual radiation therapy (20 to 45 treatments over 4 to 9 weeks) for the treatment of high-risk prostate cancer. SBRT uses special equipment to position a patient and deliver radiation to tumors with high precision. This method may kill tumor cells with fewer doses over a shorter period of time. This trial is evaluating if shorter duration radiation prevents cancer from coming back as well as the usual radiation treatment.
This phase II trial tests how well carboplatin before surgery works in treating patients with high-risk prostate cancer and an inherited BRCA1 or BRCA2 gene mutation. Carboplatin is in a class of medications known as platinum-containing compounds. It works in a way similar to the anticancer drug cisplatin, but may be better tolerated than cisplatin. Carboplatin works by killing, stopping, or slowing the growth of tumor cells. Giving carboplatin before surgery may shrink tumors in patients with high-risk prostate cancer with BRCA1 and BRCA2 gene mutations.
Study Title: Role of rhPSMA-7.3 PET/CT imaging in men with High-Risk prostate cancer following conventional imaging and associated changes in medical management Protocol number: BED-IIT-437 Phase: 3b Sponsor: MidLantic Urology Funding Organization: Blue Earth Diagnostics Ltd Study Design: This is a Phase 3b, multi-center, single-arm, diagnostic imaging study designed to detect metastatic lesions in men diagnosed with high-risk prostate cancer.
The objective of this phase I/II trial is to prospectively evaluate the toxicity and therapeutic efficacy of Stereostatic Body Radiation Therapy (SBRT) to prostate and pelvic lymph nodes in combination with high-dose-rate (HDR) brachytherapy to the prostate in patients with localized unfavorable-intermediate risk or higher disease.
This phase II trial tests whether magnetic resonance imaging (MRI)-guided hypofractionated radiation therapy works to reduce treatment time and side effects in patients with high risk prostate cancer. MRI-guided hypofractionated radiation therapy delivers higher doses of radiation therapy over a shorter period of time directly to diseased tissue, reducing damage to healthy tissue. Using MRI-guided radiation therapy on areas of the prostate and pelvic lymph nodes may shorten overall treatment time compared to the longer standard of care therapy and may reduce the number and/or duration of side effects.
Phase 2 open-label, single-arm clinical trial evaluating the efficacy and safety of neoadjuvant olaparib + LHRH agonist administered for 6 months prior to radical prostatectomy (RP) in men with unfavorable intermediate-risk or high-risk localized prostate cancer. All patients must have confirmed germline or somatic select HRR alterations. Germline and somatic mutation testing will be performed as part of commercially available CLIA assays and will be validated on a uniform platform centrally all patients retrospectively. Eligible patients will receive treatment with olaparib + LHRH agonist. Following 6 months of therapy, patients will undergo RP with mandatory lymph node dissection. The lymph node dissection template will be at the discretion of the treating urologist. RP specimens will undergo pathology blinded independent central review. Following RP, patients will be followed for testosterone recovery and PSA progression.
The purpose of this study is to find out whether combining a shorter than standard course of ADT with standard prostate brachytherapy and hypofractionated external beam radiation therapy is a safe and effective way to prevent high-risk prostate cancer from coming back and/or spreading to other parts of the body.
The current protocol will examine the use of a plasmid DNA vaccine encoding AR, alone or with T-cell checkpoint blockade, to induce and/or augment therapeutic T-cells following androgen deprivation in patients with newly diagnosed prostate cancer scheduled to undergo prostatectomy. Patients without evidence of metastatic disease, with tissue remaining from a pre-treatment biopsy, and who are being considered for standard treatment by prostatectomy, will be invited to participate and will be on study for up to 15 months.
This multicenter Phase I/II trial consists of two stages: a phase I stage in patients with castration resistant prostate cancer in which the recommended phase II dose will be determined for ipatasertib administered in combination with darolutamide; and a phase II neoadjuvant stage in which patients with high risk prostate cancer and loss of PI3K pathway activation in the tumor tissue planning on undergoing prostatectomy receive ADT, darolutamide, and ipatasertib for 24 weeks prior to planned surgery.
This is an interventional, single group assignment, prospective nonrandomized, open label Phase 2 trial designed to evaluate 18F-DCFPyL PET imaging in men diagnosed with prostate cancer with increasing prostate-specific antigen (PSA) levels.
This phase II trial investigates whether proton radiation therapy directed to the prostate tumor, pelvic, and para-aortic lymph nodes, is an effective way to treat patients with high-risk or lymph node positive prostate cancer who are receiving radiation therapy, and if it will result in fewer gastrointestinal and genitourinary side effects. Proton beam therapy is a new type of radiotherapy that directs multiple beams of protons (positively charged subatomic particles) at the tumor target, where they deposit the bulk of their energy with essentially no residual radiation beyond the tumor. By reducing the exposure of the healthy tissues and organs to radiation in the treatment of prostate cancer, proton therapy has the potential to better spare healthy tissue and reduce the side effects of radiation therapy.
This is a prospective, single-center, open-label pilot study of 68GA-PSMA-11 given at a single time prior to PET/CT imaging in men with localized high risk prostate cancer or biochemical recurrence. The imaging agent (68 Ga-PSMA 11 will be administered on an outpatient basis. It will be administered prior to the PET/CT imaging. The objective is to evaluate the distribution of 68GA-PSMA-11 in tissues and to determine if this alters the planned clinical management.
This study will enroll prostate cancer patients with an unfavorable intermediate- or high-risk diagnosis. The purpose of this study is to determine whether a regimen of pembrolizumab and low dose prostate radiation or low dose prostate radiation alone prior to a prostatectomy affects cells of the immune system and if it is a safe option for this stage of prostate cancer. Participants will be randomized 1:1 (like flipping a coin) to receive pembrolizumab, low dose prostate radiation and a prostatectomy or low dose prostate radiation and a prostatectomy. Pembrolizumab is an investigational drug that increases the ability of the immune system to kill tumor cells. Low dose radiation can alter the way tumor cells look to the immune cells. For example, the immune cells may express different proteins that make them more susceptible to immune cell killing or the structure of the tumor may be altered to allow the immune cells to infiltrate the tumor more thoroughly. The prostate tissue collected from the prostatectomy will be analyzed for differences in pathology and local immune cell infiltration, and participants will be followed for 2 years to watch for prostate specific antigen (PSA) recurrence and prostate cancer recurrence.
This phase III trial compares less intense hormone therapy and radiation therapy to usual hormone therapy and radiation therapy in treating patients with high risk prostate cancer and low gene risk score. This trial also compares more intense hormone therapy and radiation therapy to usual hormone therapy and radiation therapy in patients with high risk prostate cancer and high gene risk score. Apalutamide may help fight prostate cancer by blocking the use of androgen by the tumor cells. Radiation therapy uses high energy rays to kill tumor cells and shrink tumors. Giving a shorter hormone therapy treatment may work the same at controlling prostate cancer compared to the usual 24 month hormone therapy treatment in patients with low gene risk score. Adding apalutamide to the usual treatment may increase the length of time without prostate cancer spreading as compared to the usual treatment in patients with high gene risk score.
This phase III trial compares the effect of adding darolutamide to ADT versus ADT alone after surgery for the treatment of high-risk prostate cancer. ADT reduces testosterone levels in the blood. Testosterone is a hormone made mainly in the testes and is needed to develop and maintain male sex characteristics, such as facial hair, deep voice, and muscle growth. It also plays role in prostate cancer development. Darolutamide blocks the actions of the androgens (e.g. testosterone) in the tumor cells and in the body. Giving darolutamide with ADT may work better in eliminating or reducing the size of the cancer and/or prevent it from returning compared to ADT alone in patients with prostate cancer.
This study is trying to find out if the combination of Androgen deprivation therapy (ADT), MRI guided high dose radiation (HDR) brachytherapy treatment (internal radiation implant procedure) and external beam radiation therapy (EBRT) treatments lead to less side effects. This study is also looking at patient outcomes, quality of life, and overall survival for patients receiving this treatment.
This is a single-arm Phase II clinical trial assessing the clinical efficacy of prostate specific membrane antigen (PSMA) PET/MR guided MR-LINAC based SBRT-SIB with planned accrual of 50 patients.
The purpose of this study is to determine the effectiveness of darolutamide as part of adjuvant androgen deprivation therapy (ADT) with a luteinising hormone releasing hormone analogue (LHRHA) in men having radiation therapy for localised prostate cancer at very high risk of recurrence.
Background: People with prostate cancer usually have their cancer imaged with a CT scan and bone scan. They then have their prostate gland removed. Researchers want to test a scan that might predict if prostate cancer will return after this surgery. Objective: To test if a PET/CT scan before the prostate gland is removed can predict if prostate cancer will return. Also, to test if this approach is better or worse than the usual approach for prostate cancer. Eligibility: Men ages 18 and older with prostate cancer that appears to be contained within the prostate but is at risk of having spread Design: Participants will be screened with: * Medical history * Blood tests * CT and MRI scans: Participants will lie in a machine. The machine will take pictures of the body. * Bone scan Participants will have a radiotracer injected into a vein. They will have a PET/CT scan of their whole body 60-90 minutes later. During the scan, they will lie on their back and stay still. Within 60 days after the scan, participants will have surgery. This will remove the prostate gland and lymph nodes around it. Some tissue will be used for genetic testing. If the PET/CT scan suggests the cancer has spread, participants may need to have another biopsy within 60 days after the scan. After surgery, participants will have follow-up visits for 5 years. They will have 5 visits the first year and 2 the second. Then they will have visits once a year. If participants cancer returns, they will have repeat PET/CT scans.
This is a prospective, randomized, open-label, phase II trial of cabozantinib in subjects with untreated, high risk prostate cancer undergoing radical prostatectomy. This multicenter study will enroll 30 subjects. Duke is the lead site for this trial. There will be a second site selected TBD. Patients will be assigned (first 9 subjects only) or randomized 2:1 to either: (1) cabozantinib 40 mg by mouth daily for 4 weeks, followed by a 2 week drug washout period before prostatectomy (n = 20), or (2) immediate prostatectomy within 12 weeks of registration (n = 10). The first 9 subjects (6 subjects assigned to cabozantinib treatment, 3 subjects assigned to immediate prostatectomy) will constitute the Safety Lead-In Cohort, which will be only accrued at Duke. After six subjects have received cabozantinib and completed the 57-85 day safety visit without triggering a stopping rule, subjects may be accrued at the ex-Duke site. The primary goal is to compare pathologic apoptotic indices (cleaved caspase-3) in prostatectomy specimens from patients who undergo immediate prostatectomy (controls) versus those who receive with cabozantinib followed by prostatectomy. The secondary objective is to conduct immune phenotypic profiling on the peripheral blood and tumor microenvironment in prostatectomy specimens from both groups. A statistical analysis will be used to compare the apoptotic indices between the two groups.
This is a single-center, single arm, open-label phase II study evaluating the safety, anti-tumor effect, and immunogenicity of neoadjuvant Dupixent given prior to radical prostatectomy.
Men with prostate cancer with Gleason Score of 8 or greater or clinical/radiographic evidence of T3 disease will be considered for this trial.