Williamsport

Researchers are investigating the addition of an immunotherapy drug called durvalumab to standard chemotherapy treatment in patients with MammaPrint High 2 Risk (MP2) stage II-III hormone receptor positive, HER2 negative breast cancer. This phase III trial aims to compare the effectiveness of usual chemotherapy alone versus chemotherapy combined with durvalumab. Immunotherapy with durvalumab may help the immune system attack cancer cells and prevent tumor growth and spread, while chemotherapy drugs like paclitaxel, doxorubicin, and cyclophosphamide work to stop cancer cells from growing or dividing. Previous studies suggest patients with an MP2 result might respond better to this combined treatment approach. Participants first undergo MammaPrint testing to confirm MP2 status before randomization into two groups. One group receives paclitaxel intravenously on days 1 and 8 every 14 days for 6 cycles, followed by doxorubicin and cyclophosphamide intravenously on day 1 every 14 days for 4 cycles. The other group receives the same chemotherapy schedule plus durvalumab intravenously over 60 minutes on specified cycles during both chemotherapy phases. Mammography is performed during screening, and optional tissue and blood samples are collected for future studies. Throughout the study, participants are monitored through various assessments including imaging, physical exams, laboratory tests, and quality of life questionnaires focusing on fatigue and physical and mental health. Researchers track breast cancer event-free survival and other outcomes such as treatment side effects and response rates. After completing treatment, patients are followed for up to 10 years or until death to evaluate long-term outcomes and safety.

Researchers are evaluating the effects of adding cemiplimab, an immunotherapy drug that blocks the PD-1 pathway to help the immune system attack tumor cells, to the usual treatment of docetaxel and ramucirumab in patients with stage IV or recurrent non-small cell lung cancer. This phase II/III Expanded Lung-MAP trial compares cemiplimab combined with docetaxel and ramucirumab versus docetaxel and ramucirumab alone, aiming to improve treatment outcomes in patients who previously received platinum chemotherapy and immunotherapy but developed resistance or disease progression. Participants are randomly assigned to one of two treatment arms. In Arm I, patients receive dexamethasone orally twice daily on days 0-2, ramucirumab and docetaxel intravenously on day 1 of each 21-day cycle. In Arm II, patients receive the same treatments plus cemiplimab intravenously on day 1 of each cycle. Treatment cycles continue every 21 days until disease progression or unacceptable side effects occur. Throughout the study, patients undergo regular blood sample collection and imaging scans such as CT or MRI to monitor disease status. During the study, participants are closely monitored with scans, blood tests, and physical exams to assess overall survival and other outcomes like progression-free survival, response rates, and treatment safety. Researchers also collect blood samples for future molecular studies. After completing treatment, patients are followed up every 3 to 6 months for up to 3 years to track long-term survival and health status. The study measures overall survival from randomization to death from any cause, assessed up to 3 years.

Researchers are evaluating how to best recommend chemotherapy for patients with colon cancer after surgery by using the presence or absence of circulating tumor DNA (ctDNA) in the blood. This approach aims to identify microscopic residual tumor cells and may provide better risk prediction for cancer recurrence compared to traditional methods. The trial focuses on patients with Stage IIB, IIC, or III colon cancer who have undergone complete tumor removal. Participants will have their tumor tissue and blood tested centrally using the Signatera assay to determine ctDNA status. Patients without detectable ctDNA may avoid chemotherapy, while those with detectable ctDNA are considered at higher risk and will be randomly assigned to receive different chemotherapy regimens, including mFOLFOX6, CAPOX, or mFOLFIRINOX, given intravenously or orally over periods ranging from 3 to 6 months. The study includes initial screening, treatment, and possible second randomization for patients whose ctDNA status changes during monitoring. During the study, participants will undergo various assessments including blood tests, imaging scans, and performance evaluations to monitor their health and response to therapy. Researchers will track the time to ctDNA positivity and disease-free survival for up to 3 and 5 years, respectively. Safety and treatment effects will be closely observed throughout the study duration, ensuring thorough follow-up and monitoring for all participants.

Researchers are evaluating a phase II Lung-MAP treatment trial testing combinations of targeted drugs—capmatinib, osimertinib, and ramucirumab—to treat patients with advanced non-small cell lung cancer (NSCLC) that has spread and shows EGFR and MET gene changes. Capmatinib and osimertinib are kinase inhibitors that block abnormal proteins signaling cancer growth, while ramucirumab is an antibody that may stop new blood vessel growth needed by tumors. Targeting these gene changes may help shrink or control the cancer. Patients are randomized into two groups: one group receives capmatinib and osimertinib orally along with ramucirumab intravenously, while the other group receives capmatinib and osimertinib orally without ramucirumab. Throughout the study, participants undergo CT or MRI scans and provide blood samples. The treatments are given according to the assigned group to compare their effects and safety. During the trial, participants are closely monitored with imaging and blood tests to assess cancer progression and treatment side effects. The main measure is progression-free survival, tracking time until cancer worsens or death, over up to 3 years. Researchers also evaluate response rates, overall survival, toxicity, and collect tissue and blood samples to study tumor DNA. Participants' health status and laboratory values are regularly checked to ensure safety and effectiveness of the treatments.

Researchers are evaluating if adding adjuvant chemotherapy (ACT) to ovarian function suppression (OFS) plus endocrine therapy (ET) improves invasive breast cancer-free survival (IBCFS) compared to OFS plus ET alone. This Phase III trial focuses on premenopausal women with early-stage breast cancer that is estrogen receptor (ER)-positive, HER2-negative, and has a 21-gene recurrence score between 16-25 for node-negative patients or 0-25 for patients with 1-3 positive nodes. The study addresses the need for better treatment options for younger women diagnosed with this type of breast cancer, as younger age is linked to worse outcomes despite standard therapies. Participants receive one of two treatments: either OFS combined with an aromatase inhibitor (AI) for five years or adjuvant chemotherapy followed by the same OFS plus AI regimen. The specific AI and GnRH agonist used, along with their dosing schedules, are chosen by the investigator, commonly including goserelin, leuprolide, or triptorelin administered monthly or every three months. Bilateral oophorectomy may be used instead of ovarian suppression if preferred. Endocrine therapy beyond five years is at the investigator's discretion. During the trial, participants will be closely monitored for invasive breast cancer-free survival over an 11-year period from randomization. Assessments include clinical evaluations, hormone receptor testing, tumor staging, and genetic recurrence scoring prior to enrollment. Safety and effectiveness data will be collected throughout the study, with particular attention to treatment side effects and long-term outcomes. The trial involves detailed eligibility screening and ongoing follow-up to ensure accurate measurement of the study's primary outcome.

Researchers are evaluating a screening and multi-sub-study randomized phase II/III trial called Lung-MAP, designed for patients with previously treated non-small cell lung cancer. The trial aims to establish a genomic screening method to assign patients to biomarker-driven or non-matched sub-studies. Depending on the cancer biomarker type, participants may receive new targeted cancer therapies or combinations compared to standard care, with the goal of approving new treatments. An optional ancillary study explores patient and physician attitudes about returning genetic findings related to germline mutations. The study involves testing patient specimens to determine eligibility for various sub-studies under the Lung-MAP protocol. Patients undergo screening to analyze tumor tissue and blood samples for biomarkers including PD-L1 and c-MET. Those requiring a fresh biopsy also submit blood for circulating tumor DNA testing. Sub-study assignment depends on the molecular profile results. This screening process includes both patients progressing after prior therapy and those pre-screened before progression on current treatment. Participants provide informed consent and tumor tissue that meets quality standards for testing. Researchers collect clinical data including smoking history and performance status. Outcomes focus on screening success, such as adequate tissue submission and matching to biomarker-driven sub-studies, tracked for up to three years. The study also monitors patient and physician knowledge and preferences regarding genomic findings. Participation duration varies based on screening and sub-study assignment.

Researchers are evaluating newly developed self-powered smart insoles designed for remote patient monitoring in both military and civilian populations. This study is funded by SEMI and the Air Force Research Laboratory and aims to assess the comfort, durability, and accuracy of sensors embedded in the insoles and their associated mobile app. The evaluation includes two generations of the smart insole, with the second generation featuring an improved energy harvester for power generation. The study has two phases. Phase 1 is a pilot study at the University of Utah involving 10 participants who will wear generation 1.0 insoles while walking at different speeds on a treadmill and over a half-mile course on campus. Phase 2 includes a pilot study of generation 2.0 insoles with 10 subjects at the same location, followed by a larger field study where 100 participants will take the insoles home to wear over 4 weeks. Data collection from the sensors embedded in the insoles will be observational. Participants will be involved in multiple visits and monitored over four weeks. They will visit Spectrum Ergonomics once per week for four weeks in the field study. The study will measure the safety of the sensors and their accuracy in monitoring biomarkers. Researchers will also assess participant comfort and the durability of the insoles throughout the study period. Safety and adherence will be monitored during these visits and through data collected by the insoles.

Researchers are evaluating how well serum tumor marker directed disease monitoring (STMDDM) works for patients with hormone receptor positive, HER2 negative metastatic breast cancer. The study compares STMDDM with the usual care approach to see if overall survival is not worse using STMDDM. The trial also looks at healthcare costs, patient anxiety, quality of life, and preferences related to disease monitoring. Patients are randomly assigned to one of two groups. One group receives usual care with imaging at least every 12 weeks and other monitoring at the doctor's discretion for up to 312 weeks if the disease does not progress. The other group has their serum tumor markers checked every 4 to 8 weeks, with imaging only if markers are elevated, also for up to 312 weeks without progression. Additional assessments include quality-of-life and anxiety questionnaires. Throughout the study, participants undergo regular evaluations including imaging, blood tests for tumor markers, and patient-reported outcome questionnaires. Researchers track overall survival up to 312 weeks after randomization, along with healthcare costs and patient experiences. Participants must provide informed consent and are monitored for safety during the study period.

Researchers are evaluating the effectiveness of using brain magnetic resonance imaging (MRI) scans alone compared to combining MRI scans with prophylactic cranial irradiation (PCI) in treating patients with small cell lung cancer (SCLC). This phase III trial aims to determine if MRI surveillance alone is not worse than adding PCI in terms of overall survival. The study also looks at cognitive function, brain metastasis-free survival, and treatment side effects among patients with limited or extensive-stage SCLC. Participants are randomly assigned to one of two groups. One group receives PCI, which is radiation therapy focused on the brain, given over two weeks for 20 minutes per day, five days a week, along with scheduled MRI scans at 3, 6, 9, 12, 18, and 24 months. The other group undergoes MRI scans at the same intervals without receiving PCI. Both groups are monitored closely through these MRI scans to track any spread of cancer to the brain. During the study, patients will have regular MRI scans, cognitive assessments, and evaluations of side effects and survival outcomes up to two years after randomization. Blood samples will be collected for future research. Researchers will monitor overall survival, cognitive failure rates, and brain metastasis occurrence, aiming to understand if avoiding PCI might reduce side effects without compromising survival. Participant involvement includes multiple scheduled scans and tests over a two-year follow-up period.

Researchers are evaluating whether 6 months of human epidermal growth factor receptor 2 (HER2)-targeted therapy is as effective as 12 months of the same treatment for patients with early-stage HER2-positive breast cancer who have no remaining invasive cancer after preoperative chemotherapy with trastuzumab. This phase III trial focuses on patients who achieved a pathologic complete response (pCR), aiming to assess recurrence-free survival and quality of life outcomes. The study also explores differences in side effects and survival among subgroups based on treatment delivery and hormone receptor status. Participants are randomly assigned to receive either 6 or 12 months of HER2-targeted therapy, including trastuzumab and possibly pertuzumab, administered intravenously or subcutaneously every 21 days. The treatment cycles continue up to 9 or 17 cycles respectively, unless disease progression or unacceptable side effects occur. Throughout the trial, patients undergo regular heart function tests (echocardiography or MUGA), breast imaging (mammography, ultrasound, or MRI), and may optionally provide blood and tissue samples. During the study, patients complete quality of life questionnaires and are monitored for cancer recurrence and side effects. Follow-up visits occur every 6 months for 5 years and then annually up to 10 years after registration. The main outcomes measured include time without cancer recurrence and patient-reported quality of life at 12 months. Safety and long-term effects of the different treatment durations are also assessed.