26 Clinical Trials for Various Conditions
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.
This phase II trial compares the effect of relugolix to leuprolide on cardiac function and performance in patients with prostate cancer. Androgen deprivation therapy (ADT) has been a key component for the treatment of advanced prostate cancer for decades. The term androgen deprivation therapy means lowering a man's testosterone. Long-term studies show that ADT may contribute to a detriment to cardiac health and predisposes men to developing cardiac diseases. Recent studies suggest that men taking relugolix for treatment of prostate cancer may have a lower risk of developing cardiovascular problems, but more studies are needed to understand this observation, and there are currently no studies reporting the direct impact of ADT (relugolix, versus the more-commonly used leuprolide) on cardiac function and outcomes. Participants will receive definitive radiotherapy for unfavorable intermediate risk prostate cancer and 6-month ADT (either relugolix or leuprolide). In addition, participants will undergo the following: 1. Comprehensive cardiac and exercise testing before and after starting ADT 2. Completion of quality-of-life questionnaires at specific intervals during the study period 3. Provide blood samples at specific intervals during the study period to test for changes in steroid levels and certain biomarkers
This phase III trial tests the side effects of stereotactic body radiation therapy (SBRT) compared to hypofractionated radiotherapy for treating patients with prostate adenocarcinoma that has come back after a period of improvement (recurrent) or that has spread from where it first started (primary site) to a limited number of sites (oligometastatic). SBRT is a type of external radiation therapy that uses special equipment to position a patient and precisely deliver radiation to tumors in the body (except the brain). The total dose of radiation is divided into smaller doses given over several days. This type of radiation therapy helps spare normal tissue. Hypofractionated radiation therapy delivers higher doses of radiation therapy over a shorter period of time and may kill more tumors cells and have fewer side effects. SBRT may work just as well as hypofractionated radiation therapy at treating patients with biochemically recurrent or oligometastatic prostate cancer, but with a shorter treatment time and possibly fewer side effects.
This clinical trial investigates the impact of prostate cancer treatment, specifically androgen deprivation therapy (ADT), on the heart and coronary vessels among men with localized, non-metastatic prostate cancer undergoing definitive radiation therapy and concomitant ADT. Recently, cardiovascular toxicity from hormone therapy that is routinely used for prostate cancer (e.g. leuprolide) has emerged as a concern, yet studies identifying who is at risk and the mechanism of cardiac damage are lacking. Additionally, a new hormone therapy drug, relugolix, has recently been Food and Drug Administration (FDA)-approved and may reduce toxicity to the heart. This trial intends to investigate the mechanism of cardiovascular toxicity from ADT, investigate the mechanism by which relugolix reduces cardiovascular toxicity, and identify predictive biomarkers to improve individualized risk-assessment for cardiovascular toxicity from ADT.
This clinical trial studies the effects of a dietary intervention prior to surgery (neoadjuvant) in patients with intermediate risk prostate cancer. Changing your diet before surgery may help to improve overall health. Information from this study may help researchers better understand the influence of diet on the outcomes of patients with intermediate prostate cancer.
This phase III trial compares the effects of robot-assisted radical prostatectomy (RARP) with or without vesicopexy on urinary continence (a person's ability to control their bladder) and quality of life in patients with cancer of the prostate. RARP is the most adopted surgical approach for treatment of prostate cancer that has not spread to other places in the body (non-metastatic). Urinary incontinence (inability to control the bladder) is one of the most common complications of RARP, impacting patients' quality of life and psychological well-being. Different techniques have been proposed to improve urinary continence following RARP. Vesicopexy is one technique that restores the bladder to its normal position in the body after RARP. This study aims to evaluate whether RARP with vesicopexy may improve urinary continence and quality of life after surgery in prostate cancer patients.
Prostate-specific membrane antigen (PSMA) agents have shown promise in detecting and treating prostate cancer. Gallium-68-labeled PSMA-11 (68Ga-PSMA-11) is a radioactive agent that binds to prostate cancer cells and can be imaged using positron emission tomography (PET) scanners that detect radioactivity in the body. This early phase I study will use PET to determine if delivering 68Ga-PSMA-11 directly into the prostatic artery (intra-arterial (IA) administration) results in greater uptake in the prostate than delivering 68Ga-PSMA-11 into a vein in the arm (intravenous (IV) administration).
This phase II trial studies the effect of androgen ablation therapy with or without niraparib after standard of care radiation therapy in treating patients with prostate cancer that has not spread to other parts of the body (localized) or that has spread to nearby tissue or lymph nodes (locally advanced). Androgen ablation therapy (also known as hormone therapy) lowers the levels of male hormones called androgens in the body. Androgens stimulate prostate cancer cells to grow. There are 2 types of androgen ablation therapy given in this study: AAP + ADT and Apa + ADT. AAP + ADT is the treatment combination of the drugs abiraterone acetate and prednisone (AAP) given with androgen deprivation therapy (ADT, also known as androgen deprivation therapy or androgen suppression medication, which is used as standard of care to lower testosterone levels in men with high risk localized or metastatic prostate cancer). Apa + ADT is the treatment combination of the drug apalutamide (Apa) given with ADT. Androgen ablation therapy with or without niraparib after radiation therapy may help to control the disease in patients with prostate cancer.
This phase II trial investigates the effect of high dose-rate brachytherapy and stereotactic body radiotherapy in treating patients with prostate adenocarcinoma. Brachytherapy, also known as internal radiation therapy, uses radioactive material placed directly into or near a tumor to kill tumor cells. Stereotactic body radiation therapy 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 and cause less damage to normal tissue.
This study assesses the health literacy and understanding of radiation therapy information during consultation in patients with prostate or breast cancer undergoing definitive radiation therapy. Health literacy is defined as "the capacity to obtain, process, and understand health information and services to enable sound health decisions." Information gained from this study, may help researchers develop appropriate modalities to enhance comprehension of radiation therapy, and therefore allow for improved patient decision making with medical treatment.
This trial studies the changes in long-term physician-scored genitourinary toxicity achieved in prostate cancer patients eligible for stereotactic radiation therapy when both patients and physicians have access to convincing but non-validated germline signature that can characterize patients as having a low or high risk of developing toxicity after radiation therapy. The information learned from this study may guide patients' and physicians' decisions on radiotherapy fractionation.
This phase II trial studies how well white button mushroom supplement works in reducing prostate-specific antigen (PSA) levels in patients with prostate cancer that has come back (recurrent) or has favorable risk and has not undergone any therapy (therapy naive). PSA is a blood marker of prostate growth. White button mushroom supplement may affect PSA level, various parameters of immune system and levels of hormones that may have a role in prostate cancer growth.
This randomized phase III trial studies the success rate of definitive radiation therapy (dRT) for prostate cancer (PCa) with or without planning based on PSMA PET. PSMA- PET-based dRT, may improve radiation therapy planning and patient selection for dRT, and potentially improve its outcome compared to dRT without PSMA PET (standard dRT).
This phase II trial studies how well focal radiation therapy with stereotactic body radiation therapy (SBRT) or high-dose rate (HDR) brachytherapy works in treating patients with low or intermediate-risk prostate cancer. Stereotactic body radiation therapy 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 and cause less damage to normal tissue. Brachytherapy, also known as internal radiation therapy, uses radioactive material placed directly into or near a tumor to kill tumor cells. HDR brachytherapy uses high doses of radiation to target these tumor cells. Giving focal radiation therapy with SBRT or HDR brachytherapy may target dominant tumor cells while sparing the reminder of the prostate or surrounding normal organs and ultimately reduce side effects while maintaining disease control.
This trial studies 7 Tesla magnetic resonance imaging (MRI) in diagnosing cognitive impairment in patients with prostate cancer that has not spread to other places in the body (non-metastatic) and who have or have not received androgen deprivation therapy (ADT). The MRI machine uses a strong magnet and radio wave to make images of the inside of the body. A stronger magnetic field allows greater signals and more detailed visualization of the structure and function of human body. Giving 7 Tesla MRI may help doctors learn if patients that receive ADT show more signs of cognitive dysfunction or brain fog compared to patients to patients that do not receive ADT.
This early phase I trial studies the feasibility of a daily, long-term intermittent fasting routine in preventing or delaying a rise in prostate specific antigen (PSA) levels in patients with prostate cancer that has not spread to other parts of the body (localized) and who have undergone radical prostatectomy. PSA is a protein produced by both normal and cancer cells. Following a daily fasting routine after treatment for prostate cancer may lower the risk of patients' PSA level rising above 0.4 ng/mL, which is also called PSA-recurrence. A PSA-recurrence can sometimes mean that the disease has returned and/or progressed.
This phase II trial compares high-dose rate brachytherapy and stereotactic ablative radiotherapy as monotherapy in treating patients with prostate cancer that has not spread to other parts of the body (localized). High-dose rate brachytherapy delivers radiation directly into the prostate within a few minutes by a single radioactive seed through temporarily placed plastic catheters inside the prostate gland. Stereotactic ablative radiotherapy is an external beam radiation method that delivers large doses of radiation to the cancer in a short period of time, usually 5 treatments. This trial aims to find which of these two approaches is better in terms of patient-reported quality of life.
This trial studies how well a lifestyle intervention works in reducing prostate cancer disparities among African American prostate cancer patients and their spouses or romantic partners. A lifestyle intervention may help researchers learn if social support can help African American prostate cancer patients and their partners improve their quality of life, support from their partner, physical activity, diet, and inflammation.
This trial studies the day-to-day stress, social support, and health lifestyle behaviors (such as physical activity and nutrition) in African American patients with stage 0-III prostate cancer survivors and their partners. How patients cope with stress may affect their lifestyle behaviors. This study may help understand not only survivors' behaviors but also partners' behaviors and how they interact.
This phase III trial studies whether adding apalutamide to the usual treatment improves outcome in patients with lymph node positive prostate cancer after surgery. Radiation therapy uses high energy x-ray to kill tumor cells and shrink tumors. Androgens, or male sex hormones, can cause the growth of prostate cancer cells. Drugs, such as apalutamide, may help stop or reduce the growth of prostate cancer cell growth by blocking the attachment of androgen to its receptors on cancer cells, a mechanism similar to stopping the entrance of a key into its lock. Adding apalutamide to the usual hormone therapy and radiation therapy after surgery may stabilize prostate cancer and prevent it from spreading and extend time without disease spreading compared to the usual approach.
This is a phase I-II trial to find the safety and activity of adding a new drug (neratinib) to the usual treatment (radiation combined with male hormone deprivation therapy) in lowering the chance of prostate cancer growing or returning. Niraparib is an inhibitor of PARP, an enzyme that helps repair deoxyribonucleic acid (DNA) when it becomes damaged. Blocking PARP may help keep cancer cells from repairing their damaged DNA, causing them to die. PARP inhibitors are a type of targeted therapy. Adding niraparib to the usual care may lower the chance of prostate cancer growing or returning.
This phase II trial studies how well enteric-coated (EC) aspirin and rintatolimod with or without interferon-alpha 2b work in treating patients with prostate cancer before surgery. EC Aspirin may help to keep the prostate cancer from coming back. Rintatolimod may stimulate the immune system and interfere with the ability of tumor cells to grow and spread. Interferon-alpha 2b may improve the body's natural response to infections and may slow tumor growth. It is not yet known how well rintatolimod, EC aspirin, and interferon-alpha 2b work in treating patients with prostate cancer undergoing surgery.
This pilot trial studies how well Watchful Living works in improving quality of life in participants with prostate cancer that has not spread to other parts of the body who are on active surveillance and their partners. A social support lifestyle intervention (called Watchful Living) may help African American prostate cancer participants and their partners improve their quality of life, physical activity, diet, and inflammation.
This phase II trial studies how well olaparib works in treating participants with prostate cancer that has not spread to other parts of the body (localized). Olaparib may stop the growth of tumor cells by interfering with the activity of a substance called PARP, which is inside cells. Giving olaparib before surgery may make the tumor smaller and reduce the amount of normal tissue that needs to be removed.
This phase II trial studies how well apalutamide and gonadotropin-releasing hormone analog with or without abiraterone acetate work in treating participants with prostate cancer prior to surgery. Apalutamide and abiraterone acetate may stop the growth of cancer cells either by killing the cells or by blocking some of the enzymes needed for cell growth. Hormone therapy, using gonadotropin-releasing hormone analog, may fight prostate cancer by lowering the amount of testosterone the body makes. Giving apalutamide, gonadotropin-releasing hormone analog, and abiraterone acetate may work better in treating participants with prostate cancer.
This study examines at-home monitoring of patient-generated phsyiologic health data and patient-reported outcomes. Patient-generated health data using at-home monitoring devices and smart device applications are used more and more to measure value and quality in cancer care. This trial may show whether at-home monitoring programs can improve the care of patients after hospital discharge from surgery.