Sedro-Woolley

Researchers are evaluating two treatment combinations for patients with melanoma that has spread to the brain and has a specific BRAF-V600 mutation. This phase II trial compares encorafenib, binimetinib, and nivolumab against ipilimumab and nivolumab to determine which approach better controls and shrinks brain metastases from melanoma. The study also aims to assess overall survival, response rates, treatment duration, and side effects of each regimen. Participants are randomly assigned to one of two groups. One group receives encorafenib orally once daily, binimetinib orally twice daily, and nivolumab intravenously every 28 days. The other group receives nivolumab intravenously and ipilimumab intravenously during the first four cycles, with cycles every 21 days initially, then every 28 days thereafter. Treatment continues unless the disease worsens or side effects become unacceptable. After treatment ends, participants have follow-up visits every six months for two years, then yearly until three years after starting the study. During the trial, participants undergo brain MRIs to monitor tumor response using standardized criteria. Imaging, tumor tissue, spinal fluid, stool, and blood samples are collected for research. Safety and effectiveness are carefully assessed through scans, physical exams, lab tests, and side effect monitoring. Progression-free survival up to three years after randomization is the main outcome. Participants remain in the study for about three years with periodic evaluations to track their health and disease status.

Researchers are evaluating two surgical procedures, bilateral salpingectomy and bilateral salpingo-oophorectomy, to see how well they reduce the risk of ovarian cancer in women who have BRCA1 gene mutations. The study aims to determine if removing just the fallopian tubes (bilateral salpingectomy) is almost as effective as removing both the fallopian tubes and ovaries (bilateral salpingo-oophorectomy) in lowering ovarian cancer risk. This trial also assesses symptoms related to estrogen loss, quality of life, sexual function, cancer-related distress, decision-making about surgery, and treatment side effects in these patients. Participants choose between two groups: one group undergoes bilateral salpingectomy and may have their ovaries removed later, while the other group undergoes bilateral salpingo-oophorectomy. Both groups receive pelvic or transvaginal ultrasounds or pelvic MRI scans during screening, and blood samples are collected throughout the trial. Ancillary studies include quality-of-life assessments and questionnaires. The study also collects tissue and blood samples for future research. After surgery, participants have follow-up visits at 10 to 60 days, then at 6, 12, and 24 months, and annually for up to 20 years. Researchers monitor the time until any high-grade serous carcinomas develop, specifically ovarian, primary peritoneal, or fallopian tube cancers. They also track menopausal symptoms, sexual function, quality of life, cancer distress, medical decisions about surgery, and any adverse events during this long-term follow-up.

Researchers are evaluating the addition of olaparib, a PARP inhibitor, as maintenance therapy following surgery and chemotherapy in patients with pancreatic cancer that has been surgically removed and who have a pathogenic mutation in BRCA1, BRCA2, or PALB2 genes. This phase II randomized, double-blind study aims to determine if olaparib can improve relapse-free survival compared to placebo in these patients, who have completed perioperative chemotherapy and have no evidence of recurrent disease. Participants are randomly assigned to receive either olaparib or a placebo orally twice daily in 28-day cycles for up to 12 cycles, as long as there is no disease progression or unacceptable side effects. Throughout the treatment period, patients undergo imaging tests such as CT scans or MRI and blood sample collections. After completing the treatment cycles, patients are followed up at 30 days, every 4 months for the first year, and then every 6 months for up to 10 years after randomization to monitor their health and disease status. During the study, researchers assess relapse-free survival by documenting any return of cancer or death from 22 to 44 months after randomization. They also collect blood samples and perform imaging tests to monitor the disease and evaluate treatment effects. Safety is carefully monitored, and patients must have recovered from previous treatments before starting the study. The study includes long-term follow-up to observe survival outcomes and any differences based on genetic mutations or prior chemotherapy regimens.

Researchers are evaluating how well carboplatin chemotherapy works before surgery in men with high-risk prostate cancer who have inherited mutations in the BRCA1 or BRCA2 genes. This phase II trial aims to see if carboplatin can shrink tumors and lead to complete removal of cancer cells at the time of prostatectomy. The study also monitors progression-free survival, metastasis-free survival, overall survival, and treatment side effects. Additionally, specimens are collected for future research. Participants receive carboplatin intravenously before undergoing prostate surgery. If prostate-specific antigen (PSA) levels rise after surgery, patients undergo imaging tests such as CT, MRI, chest X-ray, or PSMA PET scans to monitor for cancer spread. Blood samples are collected throughout the trial to support further study and evaluation. During the study, participants have physical exams, medical history assessments, and laboratory tests including blood counts and liver and kidney function within 28 days before enrollment. Researchers track PSA progression and survival outcomes for up to five years after treatment. The trial includes regular imaging and safety monitoring to assess treatment effects and disease status over time.

The goal of this trial is to determine the efficacy of advanced cognitive training for cancer survivors suffering from cancer- and cancer-treatment-related cognitive dysfunction. For millions of cancer survivors, cognitive dysfunction is a prevalent, severe, and persistent problem that has long been associated with poor work-related and health-related outcomes. Evidence suggests that a significant subset of breast cancer survivors (BCS) incur cognitive changes that may persist for years after treatment. Unfortunately, the scientific basis for managing these cognitive changes is extremely limited. Available evidence from pilot studies, including our work, suggests that advanced cognitive training, which is based on the principles of neuroplasticity (ability of brain neurons to re-organize and form new neural networks), may be a viable treatment option. However, previous trials to date have been limited by lack of attention-controlled designs, small samples of BCS, or limited outcome measures. Therefore, to overcome limitations of past studies and build on our pilot results, the purpose of this 2-group, double-blind, randomized controlled trial is to conduct a full-scale efficacy trial to compare advanced cognitive training to attention control in BCS.

Researchers are collecting blood and tissue samples from people with and without cancer to study and evaluate tests that could help detect cancer early. The goal is to create a blinded reference set of samples to validate blood-based tests for early detection of multiple types of cancer, including leukemia, lymphoma, breast, lung, and others. The study also aims to assess how well these tests perform at the time of initial cancer diagnosis, considering different tumor types and cancer stages. Participants complete a baseline questionnaire and provide blood samples at registration and again 12 months later. Those diagnosed with cancer may also provide tissue samples at these times. The study includes patients aged 40 to 75 years, with cancer diagnoses at various stages or individuals without cancer. Special procedures are in place for patients with high suspicion of certain cancers before confirmation. During the study, researchers collect detailed information through questionnaires, blood draws, and tissue sampling to analyze test accuracy. Participants are monitored for up to one year after registration to follow outcomes. The primary measure is providing this blinded set of blood samples to help validate future cancer detection tests, supporting research that could improve early diagnosis and treatment.

This research collects data and biological samples from patients who have experienced side effects from immunotherapy treatments for cancer. The goal is to create a national collection of these samples and clinical information to help future studies understand, predict, prevent, and treat serious immune-related side effects, rare infections, or rapid tumor growth after immunotherapy. Participants provide tissue and blood samples when they join the study and again one month later. Some patients may also provide stool samples if they have certain side effects like colitis. Researchers also review participants' medical records for up to one year to gather detailed health information related to their treatment and side effects. During the study, patients undergo sample collections and have their health records examined. The main outcome measured is the establishment of a national biorepository containing these samples and data, which will be used in future research over the course of one year. This study aims to support better understanding and management of immunotherapy side effects in cancer treatment.

Researchers are evaluating three different combinations of drugs to treat newly diagnosed multiple myeloma in patients who are considered frail or intermediate-fit and are not eligible for stem cell transplant. This phase III trial focuses on comparing these three-drug induction treatments followed by either double- or single-drug maintenance therapy. The study aims to determine which treatment combination better controls the disease and improves progression-free survival and overall survival. Patients are randomly assigned to one of three treatment groups. Arm 1 (VRd-Lite) receives bortezomib by injection under the skin, lenalidomide by mouth, and dexamethasone by mouth during induction cycles, followed by lenalidomide alone for maintenance. Arm 2 (DRd-R) receives daratumumab and hyaluronidase-fihj injections, lenalidomide, and dexamethasone during induction, followed by lenalidomide alone during maintenance. Arm 3 (DRd-DR) receives the same induction as Arm 2, but maintenance includes both daratumumab and lenalidomide. Induction cycles last up to 9 cycles of 28 days each, and maintenance cycles continue every 28 days if the disease does not progress or toxicity occurs. Participants undergo assessments including tumor evaluations, whole-body imaging, blood tests, and quality-of-life questionnaires. After completing treatment, patients are followed every 3 months for 1 year, every 6 months for 2 years, and then annually for up to 10 years. Researchers will measure progression-free survival, overall survival, response rates, safety, minimal residual disease, and patient-reported health outcomes to understand the treatments' effects and support future care decisions.

Researchers are evaluating two different methods for monitoring pancreatic cysts to determine which approach leads to better outcomes for patients with these cysts. The study compares a lower intensity surveillance schedule with a higher intensity surveillance schedule in patients aged 50 to 75 years. The study also aims to assess differences in surgical complications, pancreatic cancer rates, mortality, costs, healthcare use, patient quality of life, anxiety, financial distress, adherence to surveillance, and the predictive value of biomarkers and radiomic markers for cancer or dysplasia. Participants are randomly assigned to one of two surveillance arms. In the low intensity arm, patients receive MRI or CT scans at the start and one year later, then repeat imaging every two years if no abnormalities are found. If positive features appear, imaging frequency increases. In the high intensity arm, surveillance frequency varies by cyst size, ranging from MRI or CT every six months to combined imaging and endoscopic ultrasound (EUS) every 3-6 months for larger cysts. EUS is used to further evaluate cysts based on size and findings. After imaging procedures, patients are followed for five years from enrollment. During the study, patients undergo procedures including MRI, CT, and EUS, along with quality-of-life and questionnaire assessments. Researchers will monitor clinical outcomes, imaging results, healthcare utilization, costs, patient-reported outcomes, and biomarker performance. Safety and adherence to surveillance schedules will be tracked. The study lasts five years after the initial registration to capture long-term outcomes related to pancreatic cyst monitoring.

Researchers are investigating whether adding the chemotherapy drug Docetaxel to the usual hormone treatments can better control metastatic castration sensitive prostate cancer (mCSPC) in patients who have a less than optimal PSA response after 6 to 12 months of androgen-targeting therapy. This phase III, open-label, randomized international trial compares the effectiveness of Docetaxel combined with standard Androgen Deprivation Therapy (ADT) and Androgen-Receptor Pathway Inhibitors (ARPI) versus ADT and ARPI alone. The study focuses on men with metastatic prostate adenocarcinoma who have a suboptimal PSA decline following initial hormone therapy. Participants receive standard ADT and an ARPI such as abiraterone, enzalutamide, apalutamide, or darolutamide, which are assigned before enrollment. At enrollment, patients are randomized to receive either the addition of Docetaxel chemotherapy or no chemotherapy alongside their hormone therapy. The goal is to assess whether this combination reduces cancer growth or spread compared to hormone therapy alone. Treatment begins within five working days after enrollment, with close monitoring throughout the study. Throughout the trial, participants undergo regular assessments including PSA measurements to monitor cancer activity and overall survival tracked at 39 months. Eligibility requires stable organ function, performance status, and recovery from prior treatment side effects. Patients are monitored for adverse events, safety, and treatment response. The study also ensures participants and their partners use contraception if of childbearing potential, and participants must be accessible for treatment and follow-up visits to document outcomes and safety data.