44 Clinical Trials for Various Conditions
The purpose of this study is to determine the benefit of using positron emission tomography (PET) in addition to the standard (computed tomography) CT to plan radiation therapy for cancer treatment. The information from the PET-CT may allow the investigators to change the radiation plan or the delivery of the radiation to the tumor/tumor site such as the total dose of radiation or the size of the area to receive further radiation. Presently the use of PET scans to adjust radiation therapy during radiation treatment is not standard of care and is being investigated in this study.
The purpose of this signal seeking study is to determine whether treatment with MEK162 demonstrates sufficient efficacy in select pathway-activated solid tumors and/or hematologic malignancies to warrant further study
Background: During recent years, cancer-testis (CT) antigens (CTA), particularly those encoded by genes on the X chromosome (CT-X genes), have emerged as attractive targets for cancer immunotherapy. Whereas malignancies of diverse histologies express a variety of CTAs, immune responses to these proteins appear uncommon in cancer patients, possibly due to low-level, heterogeneous antigen expression, as well as immunosuppressive regulatory T cells present within tumor sites and systemic circulation of these individuals. Conceivably, vaccination of cancer patients with tumor cells expressing high levels of CTAs in combination with regimens that deplete or inhibit T regulatory cells will induce broad immunity to these antigens. In order to examine this issue, patients with primary lung and esophageal cancers, pleural mesotheliomas, thoracic sarcomas, thymic neoplasms and mediastinal germ cell tumors, as well as sarcomas, melanomas, germ cell tumors, or epithelial malignancies metastatic to lungs, pleura or mediastinum with no evidence of disease (NED) or minimal residual disease (MRD) following standard multidisciplinary therapy will be vaccinated with H1299 tumor cell lysates with Iscomatrix adjuvant. Vaccines will be administered with or without metronomic oral cyclophosphamide (50 mg by mouth (PO) twice a day (BID) x 7day (d) every (q) 14d), and celecoxib (400 mg PO BID). Serologic responses to a variety of recombinant CTAs as well as immunologic responses to autologous tumor or epigenetically modified autologous Epstein-Barr virus (EBV) transformed lymphocytes will be assessed before and after a six month vaccination period. Primary Objectives: 1. To assess the frequency of immunologic responses to CTAs in patients with thoracic malignancies following vaccinations with H1299 cell lysate/Iscomatrix(TM) vaccines alone in comparison to patients with thoracic malignancies following vaccinations with H1299 cell lysate/Iscomatrix vaccines in combination with metronomic cyclophosphamide and celecoxib. Secondary Objectives: 1. To examine if oral metronomic cyclophosphamide and celecoxib therapy diminishes the number and percentage of T regulatory cells and diminishes activity of these cells in patients with thoracic malignancies are at risk of recurrence. 2. To examine if H1299 cell lysate/Iscomatrix(TM) vaccination enhances immunologic response to autologous tumor or epigenetically modified autologous EBV-transformed lymphocytes (B cells). Eligibility: * Patients with histologically or cytologically proven small cell or non-small cell lung cancer (SCLC;NSCLC), esophageal cancer (EsC), malignant pleural mesothelioma (MPM), thymic or mediastinal germ cell tumors, thoracic sarcomas, or melanomas, sarcomas, or epithelial malignancies metastatic to lungs, pleura or mediastinum who have no clinical evidence of active disease (NED), or minimal residual disease (MRD) not readily accessible by non-invasive biopsy or resection/radiation following standard therapy completed within the past 26 weeks. * Patients must be 18 years or older with an Eastern Cooperative Oncology Group (ECOG) performance status of 0 - 2. * Patients must have adequate bone marrow, kidney, liver, lung and cardiac function. * Patients may not be on systemic immunosuppressive medications at time vaccinations commence. Design: * Following recovery from surgery, chemotherapy, or chemo/radiotherapy (XRT), patients with NED or MRD will be vaccinated via IM injection with H1299 cell lysates and Iscomatrix(TM) adjuvant monthly for 6 months. * Vaccines will be administered with or without with metronomic oral cyclophosphamide and celecoxib. * Systemic toxicities and immunologic response to therapy will be recorded. Pre and post vaccination serologic and cell mediated responses to a standard panel of CT antigens as well as autologous tumor cells (if available) and EBV-transformed lymphocytes will be assessed before and after vaccination. * Numbers/percentages and function of T regulatory cells in peripheral blood will be assessed before, during, and after vaccinations. * Patients will be followed in the clinic with routine staging scans until disease recurrence. * The trial will randomize 28 evaluable patients per arm to either receive vaccine alone or vaccine plus chemotherapy in order to have 80% power to determine if the frequency of immune responses on the combination arm exceeds that of the vaccine alone arm, if the expected frequencies of immune responses on the two arms were 20% and 50%, using a one-sided 0.10 alpha level Fisher's exact test. * Approximately 60 patients will be accrued to this trial.
Background: - Mithramycin is a drug that was first tested as a cancer therapy in the 1960s. It acted against some forms of cancer, but was never accepted as a treatment. Research suggests that it may be useful against some cancers of the chest, such as lung and esophageal cancer or mesothelioma. Researchers want to see if mithramycin can be used to treat these types of cancer. Objectives: - To see if mithramycin is safe and effective against different chest cancers. Eligibility: - Individuals at least 18 years of age who have lung, esophagus, pleura, or mediastinum cancers. Design: * Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. Imaging studies and tumor tissue samples will be used to monitor the cancer before treatment. * Participants will receive mithramycin every day for 7 days, followed by 7 days without treatment. Each 14-day round of treatment is called a cycle. * Treatment will be monitored with frequent blood tests and imaging studies. * Participants will continue to take the drug for as long as the side effects are not severe and the tumor responds to treatment.
Background: * Chromatin is is the structural building block of a chromosome. It is found inside the nucleus of the cell and consists of a complex of DNA and protein. * Cancers of the lung, pleura (lung lining) and esophagus show profound changes in chromatin structure that may affect the course of disease in patients. * A better understanding of these diseases and the genetic changes associated with them may be helpful in developing new treatments for them. Objectives: * To evaluate people with cancer of the lung, pleura or esophagus for participation in NCI clinical trials. * To obtain biopsies (small pieces of tissue) from tumor, normal tissue and blood samples to learn more about the cellular changes in blood and tissue in tumors of the lung, esophagus and pleura and surrounding structures in the chest. Eligibility: Patients 2 years of age and older with cancer of the lung, esophagus, pleura, mediastinum or chest wall, or cancers of other origin that have invaded the lung. Note: Patients \>= 2 years of age and under 18 years of age may only participate in research sample collection. Design: * Up to 1310 patients may be included in this study. * Patients undergo standard tests for evaluating the stage of their disease and for determining eligibility for an NCI investigational treatment study. * All patients undergo bronchoscopy and bronchoalveolar lavage ("washing" with salt water) to assess their tumor and collect a sample of normal tissue. Patients whose tumor is located on the outside portion of the lung may also undergo thoracoscopy to obtain a tumor sample. For bronchoscopy and bronchoalveolar lavage a tube with a light is passed through the nose or mouth into the lungs to examine the airways. Salt water is injected through the tube and then withdrawn to obtain cells for laboratory studies. For the thoracoscopy a small tube with a light is put through a small hole in the chest to obtain the tumor sample. Both procedures are usually done under general anesthesia. The tissue is examined to identify cell characteristics of people who respond to certain therapies and to identify markers on the surface of the tissue that may be useful in future research and treatment. * Blood and urine samples are collected from patients. * Patients who are eligible for a treatment study at NCI are offered participation in the study. * Patients for whom standard surgery, radiation or chemotherapy is more appropriate may receive treatment at NCI or with their own physician. * Patients who receive treatment at NCI return for follow-up examinations 4 weeks after discharge and then every 2 to 4 months depending on the nature of their cancer.
This study will test the safety and effectiveness of two experimental medicines - depsipeptide and flavopiridol - given together to treat cancers of the lung, esophagus, and pleura. It will determine the highest dose that these drugs can safely be given together and will test whether giving them together works better at shrinking tumors than giving either one alone. Patients 18 years of age and older with cancer of the lung, esophagus, or pleura, or other cancers that have spread to the lungs or pleura may be eligible for this study. Candidates are screened with a medical history and physical examination, blood tests, electrocardiogram (EKG), x-rays and scans, pulmonary function tests, and a tumor biopsy (removal of a small piece of tumor tissue for microscopic examination). Participants are admitted to the hospital for treatment for approximately 10 days during each 28-day treatment cycle. Depsipeptide is infused through an arm vein or central venous catheter (tube placed in a large vein in the neck or chest) for 4 hours. When this infusion is complete, flavopiridol is infused over 72 hours. The dose of depsipeptide is increased four times over the period of the study with successive groups of patients, and flavopiridol is increased once to determine the maximum safe dose of giving these drugs together. Blood tests are done before and after each depsipeptide infusion and 3 more times for the next 24 hours, and at various times over 4 days during the flavopiridol infusion to evaluate the effects of the medicines. Samples are also drawn periodically throughout the treatment cycle to evaluate safety. Heart function is monitored with several EKGs before and during the depsipeptide doses. The drug has shown effects on EKG tracings, but does not appear to injure the heart muscle. Tumor biopsies are done before treatment begins and on the fifth day of the first treatment cycle. The biopsies may be done either in the operating room by passing a tube (bronchoscope) down the throat and into the lungs or in the Radiology Department using a thin needle put through the chest wall into the tumor. For the bronchoscopy, numbing medicine is sprayed into the back of the throat to reduce discomfort, and for the needle biopsy, the skin over the biopsy area is numbed. Optional repeat biopsies may be requested before the start of the second treatment cycle and on day 5 of that cycle. (The repeat biopsies are not required for participation in the study.) At the time of each tumor biopsy, a buccal mucosal biopsy is also done. This involves scraping a tongue depressor along the inside of the mouth to collect cells for examination. At the end of the first treatment cycle, patients return to NIH for evaluation with a physical examination, blood work, x-rays, and scans of the chest, abdomen, pelvis, and brain. Patients who are not experiencing significant drug side effects are offered a second cycle, exactly like the first. The two cycles complete one course of treatment, after which patients once again return to NIH for evaluation. Additional treatment cycles may be offered to patients whose tumors have shrunk or remained stable with therapy. Patients whose tumors have not responded to therapy or who have developed severe drug side effects are taken off the study.
Our goal is to develop a reliable, physician and patient-friendly, pre-operative Thoracic Onco-Geriatric Assessment (TOGA) to predict surgical risk in geriatric oncology patients with thoracic neoplasms of the lung, esophagus, pleura and thymus, modeled upon existing CGA tools, including the Preoperative Assessment of Cancer in the Elderly (PACE)
The goal of this clinical research study is to use a new breathing test that measures the amount of nitric oxide (NO) you exhale. Researchers want to compare your "NO" levels to the amount of inflammation in your lungs, as measured using a positron emission tomography (PET) scan reading, and with respiratory symptoms questionnaire.
This study assesses for early signs of damage to the heart following chest radiation therapy using both imaging (cardiac magnetic resonance imaging and cardiac positron emission tomography) and changes in blood biomarkers. This study determines if any changes in the heart muscle can be detected either during the course of radiation therapy or shortly thereafter using specialized imaging techniques or blood tests. Cardiac magnetic resonance imaging may be used to help provide information about changes in the heart structure and function following radiation therapy. Positron emission tomography looks at differences in how the heart takes up radioactive sugar which is injected into the vein to assess changes in heart function following radiation therapy. This study may help identify patients at risk of heart issues following radiation therapy to the chest and ultimately help in the development of more effective and safe treatments for cancer in the future.
The goal of this clinical research study is to learn about ways to possibly reduce scanning errors when using 4-dimensional computed tomography (4D CT) scans to check lung function in patients with esophageal or lung cancer.
The goal of this clinical research study is to learn if the level of nitric oxide you breathe out may relate to the amount of breathing complications that you may experience due to radiation treatment.
This is a prospective single-arm study of an enhanced assistance intervention for patients with unmet essential needs undergoing \>10 fractions of radiotherapy comparing delay-free completion of radiotherapy in study participants to historic controls.
This is a first-in-human, Phase 1/2 open-label, multicenter, dose-escalation, safety, pharmacokinetics (PK), and biomarker study of CBX-12 in subjects with advanced or metastatic refractory solid tumors.
The Multi-OutcoMe EvaluatioN of radiation Therapy Using the Unity MR-Linac Study (MOMENTUM) is a multi-institutional, international registry facilitating evidenced based implementation of the Unity MR-Linac technology and further technical development of the MR-Linac system with the ultimate purpose to improve patients' survival, local, and regional tumor control and quality of life.
This study is to collect and validate regulatory-grade real-world data (RWD) in oncology using the novel, Master Observational Trial construct. This data can be then used in real-world evidence (RWE) generation. It will also create reusable infrastructure to allow creation or affiliation with many additional RWD/RWE efforts both prospective and retrospective in nature.
The purpose of the trial is to evaluate efficacy and safety of continued treatment with tisotumab vedotin.
Phase 1 A: First-in-human phase 1 study to determine safety of NP-G2-044 when given orally on a daily X 28 days followed by a 14 day rest period.
The purpose of the trial is to establish the tolerability of tisotumab vedotin (HuMax-TF-ADC) dosed three times every four weeks (3q4wk) in a mixed population of patients with specified solid tumors.
The purpose of the trial is to establish the tolerability of HuMax-TF-ADC in a mixed population of patients with specified solid tumors.
This is a Phase I study to test the safety, pharmacokinetics and effectiveness of STM 434 alone, or in combination with liposomal doxorubicin, in patients with ovarian cancer or other advanced solid tumors.
This is a Phase 1, open-labeled, non-randomized, multi-center, competitive enrollment and dose-escalation study of ALT-801, the study drug. The purpose of this study is to evaluate the safety, determine the maximum-tolerated dose (MTD) and characterize the pharmacokinetic profile of ALT-801 in previously treated patients with progressive metastatic malignancies. ALT-801, a recombinant fusion protein with a interleukin-2 (IL-2) component, has a targeting mechanism that recognizes tumor cells with a specific tumor marker.
This study is to investigate the safety of NS-9 and to see how well it is tolerated in patients with cancer that has metastasized (spread) to the liver from another primary tumor. NS-9 is a drug developed to go to the liver to cause cell death specifically in tumor cells. This study is also set up to determine the best dose to use.
The primary goal of this optional sub-study is to record what tissues fluoresce in the operating room, and then to identify if these lesions are cancer when the histopathology is performed.
The primary objective of this phase I study is to evaluate the safety and potential efficacy and to determine the recommended phase 2 dose (RP2D) of CBP-1019, a bi-specific ligand conjugated drugs in patients with advanced solid tumors.
Observational study that will be collecting clinical and molecular health information from cancer patients who have received comprehensive genomic profiling and meet the specific eligibility criteria outlined for each cohort with the goal of conducting research to advance cancer care and create a dataset that furthers cancer research.
The proposed ONE TEAM Study is an 18-month, cluster randomized controlled trial. This study will use a sequential multiple assignment randomized trial (SMART) design with a second randomization for the intervention group using a dynamic treatment regimen approach. The investigators propose to randomize 800 adults with newly-diagnosed selected cancers treated with curative intent (breast, prostate, colorectal, endometrial, non-small cell lung, and endometrial) and with \>1 selected cardiovascular disease (CVD) comorbidity (hypertension, type 2 diabetes mellitus, hypercholesterolemia). Participants will be enrolled through Duke Cancer Institute and two community-based oncology practices, both settings serving socio-demographically diverse populations. The unit of randomization will be the PCP clinic; there will be \~80 PCP clinics across North Carolina involved in the study. The overarching goals of this study are to improve chronic disease management and communication among cancer survivors by engaging PCPs as active members of the cancer care team and reframing the message to cancer survivors and providers. A diversity supplement with retrospective and qualitative components has been added to abstract older adults with solid tumors who underwent cancer surgery at DUHS. Aims include (1) to estimate the prevalence of cardiovascular complications ≤90 postoperative days among older adults with solid tumors undergoing surgery, and its association with care coordination between surgical providers and PCPs ; (2) to develop a risk index for cardiovascular complications ≤90 days of surgery among older adult patients with a solid tumor; and (3) to Assess experience and perceptions of PCPs on care coordination with surgical providers of older adults with a solid tumor following cancer surgery.
The PIONEER Initiative stands for Precision Insights On N-of-1 Ex vivo Effectiveness Research. The PIONEER Initiative is designed to provide access to functional precision medicine to any cancer patient with any tumor at any medical facility. Tumor tissue is saved at time of biopsy or surgery in multiple formats, including fresh and cryopreserved as a living biospecimen. SpeciCare assists with access to clinical records in order to provide information back to the patient and the patient's clinical care team. The biospecimen tumor tissue is stored in a bio-storage facility and can be shipped anywhere the patient and the clinical team require for further testing. Additionally, the cryopreservation of the biospecimen allows for decisions about testing to be made at a later date. It also facilitates participation in clinical trials. The ability to return research information from this repository back to the patient is the primary end point of the study. The secondary end point is the subjective assessment by the patient and his or her physician as to the potential benefit that this additional information provides over standard of care. Overall the goal of PIONEER is to enable best in class functional precision testing of a patient's tumor tissue to help guide optimal therapy (to date this type of analysis includes organoid drug screening approaches in addition to traditional genomic profiling).
International registry for cancer patients evaluating the feasibility and clinical utility of an Artificial Intelligence-based precision oncology clinical trial matching tool, powered by a virtual tumor boards (VTB) program, and its clinical impact on pts with advanced cancer to facilitate clinical trial enrollment (CTE), as well as the financial impact, and potential outcomes of the intervention.
This study will aim to demonstrate that implementation of a rapid, multidisciplinary supportive care program for patients receiving chemoradiotherapy who are deemed to be at high risk for hospitalization based on real-time pedometer data will reduce the rate of hospitalization during chemoradiotherapy or within four weeks of radiotherapy completion.
Primary objective: To determine the Phase II doses and to evaluate the safety of administering bexarotene (Targretin®) daily in combination with oral erlotinib (Tarceva™) to patients with advanced aerodigestive tract cancers. Secondary objectives: To evaluate the response rates, progression-free survival and overall survival of patients with advanced aerodigestive tract cancers treated with bexarotene (Targretin®) in combination with erlotinib (Tarceva™). To investigate the activity of this targeted combination therapy by evaluating changes in molecular markers from pre- and post-treatment buccal swab samples.