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52 active trials for Metastatic Prostate Cancer

PROState Pathway Embedded Comparative Trial

The proposal will explore a trial design called the cohort-multiple RCT (cmRCT) or as it has been recently coined, the Trials WithIn Cohorts (TWICS) design. This design has been used in a number of disease areas, both benign and cancer. Prostate conditions have been chosen since they are extremely common and if malignancy occurs the majority of men with the disease are regarded as living with a chronic condition due to its long natural history and in which innovative approaches, interventions, treatments or changes in management might have a significant patient benefit and impact on the NHS. It therefore fits the cmRCT design very well. Nonetheless, the lessons learned in this study will be of relevance to other disease spaces. The TWICS or cmRCT design is currently being used in elderly patients, risk of falls, depression, hip fracture, Yorkshire Health Study, scleroderma, breast cancer, colorectal cancer, bladder cancer and kidney cancer, to name a few. In total, a recent systematic review showed that there were 18 ongoing cmRCT studies with 6 in the UK. The acceptability and feasibility of the cmRCT in the prostate pathway will be tested. This is the first time this method will be tested and therefore piloted. In the first part of the study, the following will be evaluated. What is the accrual rate? What do patients and their healthcare professionals think of the cmRCT design? Is the data collected robust? What are the resource requirements of such a study?A number of novel interventions or changes in the pathway will then be tested and compared to standard care in the cohort that was recruited.

Start: September 2020

Phase Ia/Ib Talazoparib + Tazemetostat for mCRPC

This trial is testing whether molecularly targeted oral medications called talazoparib and tazemetostat can be safely combined for the treatment of prostate cancer, and whether the combination is effective in shrinking or preventing the growth of metastatic prostate cancer. The names of the study drugs involved in this study are: Talazoparib Tazemetostat

Start: July 2021

64Cu-TLX592 Phase I Safety, PK, Biodistribution and Dosimetry Study (CUPID Study)

This is a Phase 1 trial of TLX592, a humanised, engineered monoclonal antibody HuX592r conjugated with a DOTA chelator and radiolabelled with 64Cu (64Cu-TLX592). TLX592 is being developed as a PSMA-targeting antibody to be radiolabelled with a therapeutic radiosotope for the treatment of PSMA-expressing tumours, therefore this study has been designed to assess the safety and tolerability, pharmacokinetics, whole body biodistribution and radiation dosimetry of 64Cu-TLX592.

Start: May 2021

Toward a Comprehensive Supportive Care Intervention for Older or Frail Men With mCRPC

Multicentre pilot study (n=90) which aims to study a prevalent population of elderly or frail patients with mCRPC whom are often excluded from clinical trial participation. (Data is sorely needed in this population) The study aims to determine: if symptom monitoring (daily) is feasible using telephone or electronic means of communications in the elderly or frail patient with mCRPC The time course/pattern of symptoms important to quality of life for patients undergoing chemotherapy, abi/enza, or Radium 223 If changes in physical activity (quantified by fitbit) predict for changes to ESAS in men undergoing treatment d) Qualitatively assess the supportive care needs of older/frail men with mCRPC

Start: October 2019

18F-DCFPyL PET/CT in High Risk and Recurrent Prostate Cancer

Background: Prostate cancer is the second leading cause of cancer deaths in American men. When prostate cancer is confined to the prostate there is a high chance of cure. However, it is outside the prostate or comes back after treatment, additional therapy may be needed. Current methods of imaging prostate cancer are limited. Researchers want to see if a radiotracer called 18F-DCFPyL can identify prostate cancer in patients who have a high risk of cancer spreading outside the prostate or who have signs of recurrent cancer after treatment. Objectives: To see if the radiotracer 18F-DCFyL can help identify prostate cancer in the body before or after therapy. Eligibility: Men ages 18 and older who have prostate cancer that has been newly diagnosed, or has relapsed after radiation or surgery Design: Participants will be screened with medical history and physical exam. They will have blood taken. Participants will be divided into 2 groups. Group 1 will be men with cancer that has been newly diagnosed as high risk by their doctor who are scheduled to have prostate removal surgery or undergo biopsy before radiation therapy. Group 2 will be men who have presumed prostate cancer relapse after prostate removal surgery or radiation therapy. Both groups will have scans taken. Participants will lie still on a table in a machine that takes pictures of their body. 18F-DCFyL will be injected by intravenous (IV) line. Participants will be contacted for follow-up after scans. Participants in Group 1 may have surgery to remove their prostate gland or a biopsy to remove some prostate tissue. This procedure will be standard of care and is not a part of this study. They will also have an extra MRI scan of their prostate. For this, a tube, called an endorectal coil, will be placed in their rectum. Other tubes may be wrapped around the inside of their pelvis. A contrast agent will be given by IV. Participants in Group 2 may also undergo an MRI of the pelvis and may have a biopsy of abnormalities found on the 18F-DCFyL scan. Participants will have data about their prostate cancer collected for up to 1 year.

Start: August 2017

Genetic Testing for Breast, Ovarian, Pancreatic, and Prostate Cancers

This study is evaluating the effect of two pre-test education methods on participants interested in genetic testing for hereditary cancer risk.

Start: December 2020

[18F]FLOR (FC303) PET/CT Imaging in Patients With Prostate Cancer

The study is an open label, single-arm study designed to evaluate the safety and diagnostic performance of [18F]FLOR (FC303) PET/CT imaging to determine the presence or absence of metastatic prostate cancer. .

Start: February 2021

Standard Treatment +/- SBRT in Solid Tumors Patients With Between 1 and 3 Bone-only Metastases

Bone metastases occur frequently during the evolution of solid tumors, either isolated or associated with visceral metastases. The incidence varies between 20 and 85% depending on the primary cancer. Breast, prostate, and lung cancers are responsible for 70% of bone metastases. Cancer with bone metastases compared to other metastatic sites is considered as associated with a better prognosis, particularly for breast and prostate cancer. Bone metastases may be present at diagnosis (synchronous metastasis) or appear at a later time (metachronous metastasis). The concept of "oligometastases" was proposed in patients with about 3 up to 5 metastases (without restriction on the primary site) and associated with an intermediate prognosis. It was hypothesized that local treatment with curative intent, aiming at the few metastatic sites, would yield long-term survival probabilities, along with systemic therapies. Long-term survivors have been reported after curative-intent treatment of metastasis in sarcoma and colorectal cancers with liver or lung metastasis. We chose to focus on bone metastasis because of their high incidence, their impact on the patient's quality of life and autonomy, and their accessibility to potentially curative radiotherapy. The systemic treatment of metastatic cancer includes hormonal therapy (breast and prostate cancer), biologically-targeted drugs and chemotherapy (all cancers). Stereotactic radiotherapy is a highly accurate technique was initially developed for performing the radiosurgery of brain tumors in patients for whom it was deemed be too difficult to proceed to classical excision surgery. In this process, a high total dose of radiation is delivered in a single fraction to a well-defined intra-cranial target. The concept of radiotherapy in stereotactic conditions was extended to one or several fractions delivered to small volumes primary tumors/ metastases in extra-cranial sites (Stereotactic Body RadioTherapy [SBRT]). At present, high control rates have been achieved for lung metastases. Similarly, very high local control rates have been reported in bone metastases after stereotactic radiotherapy. In this protocol, our purpose is to demonstrate, via a randomized phase III trial, that high doses of radiotherapy, delivered in stereotactic conditions to the bone metastases (between 1 and 3 metastases) in solid tumor patients is able to improve the survival without progression.

Start: January 2018

Additional Treatments to the Local Tumour for Metastatic Prostate Cancer: Assessment of Novel Treatment Algorithms

Local cytoreductive treatments for men with newly diagnosed metastatic prostate cancer in addition to standard of care treatment

Start: April 2019

imPlementing ROutine Molecular Characterization in Patients With Metastatic Castration Resistant ProstaTe Cancer by NGS

The PROMPT study aims to routinely implement genomic pre-sorting of metastatic castration-resistant prostate cancer (mCRPC) patients for personalized treatment (e.g. immuno-, PARP inhibitors, or platinum-therapy). The investigators hypothesize that, by doing this early in the disease course (before exhausting standard of care options), it will improve treatment planning, patient outcome, quality of life, and reduce costs.

Start: February 2020

The Role of Ga68-PSMA-11 PET Imaging in Prostate Cancer Patients Undergoing Androgen Deprivation Therapy

This is an open-label single arm clinical trial, Plan to enroll approximately a total of 43 evaluable subjects. According to the estimated missing rate 15%, the sample size in this study is 51. Inclusion criteria: To be eligible for inclusion, each patient must fulfill all of the following criteria: Males with 40-85 years of age and life expectancy more than 3 months Pathology-proved prostate cancer patients and classified as clinical stage III or IV (including lymph node or bone metastasis) Willing to sign the informed consent Exclusion criteria: Patient who has any of the following criteria will be excluded from the trial: Unable to tolerate the PET/CT scan, such as those with claustrophobia, unable to lie still, consciousness unclear, vital sign unstable. With renal impairment (glomerular filtration rate lower than 30 ml/min/1.73 m2), and allergy to medium contrast. Significant abnormal lab data (AST or ALT more than three times of normal value), and high risk to conduct examination after evaluations of PI. Patient had previous malignancy history Patient had known allergy history or is probably allergy to Ga68-PSMA-11

Start: June 2019

Prostate Cancer Monitoring Using [18F]DCFPyL and Blood Based Biomarkers

Primary Objective: To determine whether changes in uptake of [18F]DCFPyL PET/CT scans at baseline and after 6 weeks of treatment for metastatic castrate resistant prostate cancer, correlates with radiographic progression free survival (rPFS) as defined by Prostate Cancer Working Group 3 (PCWG3) criteria. Secondary Objectives: To determine whether changes in uptake of [18F]DCFPyL PET/CT scans correlate with overall survival (OS) To determine whether baseline SUVmax correlate with rPFS To compare number of lesions detected with standard imaging at baseline and at the time of progression

Start: December 2018

Technology-Enhanced Acceleration of Germline Evaluation for Therapy, TARGET Study

This trial performs user testing of a mobile-friendly patient history collection and genetic education tool to improve healthcare providers' understanding of prostate cancer genetic testing. This trial also compares traditional genetic counseling versus a web-based genetic education (WBGE) tool to provide information about genetic testing to men with prostate cancer. The WBGE tool has educational modules on genetic counseling and testing, as well as a patient history collection tool to help providers learn which patients may carry genetic mutations and may be considered for genetic counseling and genetic testing. The purpose of this research is to use technology to deliver information on genetic testing for prostate cancer to patients to help them decide whether or not to receive genetic testing.

Start: August 2020

Exercise Therapy and Radiation Therapy (EXERT) for Metastatic Prostate Cancer

Exercise therapy has been shown to improve quality of life for cancer patients receiving chemotherapy. The combination of exercise therapy + radiation therapy for men with prostate cancer receiving radiation has never been studied. In the current work of exercise therapy + radiation therapy (EXERT) for metastatic prostate cancer, we will assess how patient quality of life changes after treatment (Aim 1). We believe that exercise will reduce the side effects of the radiation and therefore improve quality of life. Additionally, we believe that the mechanism behind the improvement is due to changes to the immune system, so we will measure changes in immune function (Aim 2). Since quality of life predicts survival, and exercise therapy may improve quality of life, we believe that exercise therapy for these men will improve their length of life (Aim 3).

Start: March 2021

Study of Abiraterone Acetate, Atezolizumab, GnRH Analog and Radiation Therapy in Men With Newly Diagnosed Hormone-sensitive Prostate Cancer

This study is to find out whether adding the study drug atezolizumab and stereotactic body radiotherapy (SBRT) to standard treatment with abiraterone acetate, prednisone, and Lupron® (leuprolide) is a safe and effective way to treat previously untreated metastatic prostate cancer, and to see whether the study treatment works better than the standard treatment.

Start: March 2020

Prostate-Specific Membrane Antigen (PSMA) PET Scans in People Prostate Cancer

The purpose of this study is to determine if Prostate-Specific Membrane Antigen (PSMA) positron emission tomography (PET) scans used in this study accurate and better at imaging participants' prostate cancer than the usual methods.

Start: July 2019

COMbination of Bipolar Androgen Therapy and Nivolumab

Single arm, multicenter, open-label Phase II study of the effects of parenteral testosterone in combination with nivolumab in men with metastatic castration-resistant prostate cancer who previously progressed on at least one novel androgen-receptor targeted therapy (i.e. Abiraterone acetate, Enzalutamide). Up to one taxane agent is permitted.

Start: September 2018

Management of Oligoprogressive Castration Resistant Prostate Cancer (PCS X)

This is the first pilot phase II trial assessing the response of SBRT layered on Darolutamide (BAY1841788) on RPFS and deferring palliative second line systemic therapy in M0CRPC with oligoprogression.

Start: October 2020

PRAGMA (Prostate Radio Ablation Guided by Magnetic Resonance Imaging Acquisition) in Metastatic Prostate Cancer

Patients with metastatic prostate cancer can undergo MRI-guided prostate Stereotactic body radiation therapy (SBRT) without significant adverse events, similar to what has been reported for patients with localized prostate cancer. We hypothesize that prostate SBRT will be well-tolerated in metastatic prostate cancer patients, with quality of life outcomes similar to what has been reported in non-metastatic prostate cancer patients.

Start: December 2019

Evaluation of Hypnosis in Virtual Reality on the Anxiety of Patients With Metastatic Prostate Cancer Over Chemotherapy

Prostate cancer is the first cancer in men. The treatment of metastatic prostate cancer with chemotherapy is based on the intravenous administration of docetaxel chemotherapy. Symptoms of anticipatory nausea, linked to anxiety caused by the treatment, may occur. Hypnosis is already used to treat the anxiety of people with cancer and can help treat the symtoms of nausea and vomiting of women with breast cancer. The purpose of the study is to evaluate the effect of medical hypnosis in virtual reality on the anxiety of patients with metastatic prostate cancer receiving Docetaxel chemotherapy treatment in comparison with a control group.

Start: September 2020