View clinical trials related to Neoplasms, Second Primary.
Filter by:This phase I/Ib trial tests the safety, side effects, and best dose of vinorelbine when given in combination with trotabresib in treating patients with HER2 positive breast cancer that has spread to the central nervous system or leptomeninges (metastasis). Cancer cells that make too much HER2 may grow more quickly and are more likely to spread to other parts of the body as metastases, including the central nervous system. Trotabresib is part of a family of drugs called BET inhibitors. Trotabresib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Vinorelbine is in a class of medications called vinca alkaloids. It works by slowing or stopping the growth of cancer cells in your body. Giving trotabresib and vinorelbine may increase in the anti-cancer activity of vinorelbine when used in combination with radiation (radiotherapy).
This is an open-label, single-arm, multi-site phase I/Ib trial with SYD985, an antibody-drug conjugate (ADC) targeting HER2 on the cell membrane, combined with paclitaxel.
Pancreatic cysts (A cyst is a thin walled cavity containing fluid) were rarely reported previously, but have been on a rise due to advanced imaging for evaluating pancreatic lesions or other medical reasons has increased detection of pancreatic cysts. Study shows transformation of pancreatic cysts to be 10.8 for every 100,000 women and 13.8 for every 100,000 men. Pancreatic cysts are divided in two groups; serous and mucinous. Serous cysts are thin walled cysts and are not associated with precancer. On the other hand, mucinous cysts have a tendency to progress to pancreatic cancer. Radio frequency ablation (RFA) is an alternative method used for patients who could not or decided to not undergo surgical removal of the cyst. This study is a standard of care study and no changes in regards to the procedure scheduled with the physician will be changed.
This phase II trial studies how well brigatinib works in treating patients with ALK and ROS1 gene alterations and solid cancers that have spread to nearby tissue and lymph nodes or other places in the body. Brigatinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
This is a Phase 1b/2 study designed to evaluate combination of the human T-cell cytokine Interleukin-2 (IL-2) and a checkpoint inhibitor Ipilimumab immediately following a course of hypofractionated palliative radiation therapy in the management of unresectable, relapsed/refractory metastatic melanoma.
The purpose of this study is to evaluate the clinical efficacy of an investigational agent, P10s-PADRE, a peptide mimotope-based vaccine in subjects with metastatic cancer.
The purpose of this study is to find out if special blood tests and imaging scans can help evaluate the effects of the radiation the patient receives as part of standard treatment. The patient will undergo either stereotactic or conventional radiation treatment as determined by the treating doctor. Previous evidence suggests that blood flow to tumors is affected by the amount (dose) of radiation that it receives. This effect may be seen as soon as 1-2 hours after the radiation is given. This study will evaluate if these changes can be seen and measured by performing a special type of scan called Intravoxel Incoherent Motion (IVIM) diffusion-weighted Magnetic Resonance Imaging (MRI) and a blood test. IVIM MRI is a research exam which is similar to a standard MRI exam, with only a slight difference in the technical parameters used to acquire the images.
This is a randomized, double blind placebo controlled study to evaluate safety and efficacy of lucanthone administered as an adjunct to patients receiving whole brain radiation therapy (WBRT) as primary treatment for brain metastases secondary to non-small cell lung cancer.
Genetic mutations associated with cancer are being discovered and new treatments are being created to treat people whose cancer tumors have certain genetic mutations. Genetic sequencing of a tumor can be done, and in this study that information is sent to a company called "N-of-One." They will match each patient's tumor's genetic profile to targeted therapies. The targeted therapies may be use of FDA-approved drugs, off-label use of FDA-approved drugs, or use of experimental drugs in clinical research studies open at various locations in the region. The purpose of the study is to compare the length of time it takes for a tumor to grow in people who receive the standard treatment for metastatic cancer to the length of time it takes for a tumor to grow in people who receive a drug specifically targeted for their cancer's genetic mutation. Investigators will do a kind of genetic testing called "DNA sequencing". Everyone who takes part in this trial will have genetic testing done on their cancer tumor tissue here at Dartmouth. The results of the DNA sequencing will be sent to N-of-One as noted above. The treatment participants get will depend on the results of the DNA sequencing and the availability of targeted therapies that match the genetic profile of the tumor identified by the DNA sequencing. If there is no genetic mutation that can be identified with current DNA sequencing, participants will receive the standard treatment for metastatic cancer. If there is a genetic mutation that can be identified with current DNA sequencing and a drug has been developed for this mutation, participants may be able to receive that drug. If there is more than one drug available, the participant and his/her oncologist will decide which is the best one for the participant. Because there are many drugs that may be used in this study, the investigator cannot advise in advance whether or not the drug a participant might receive has been approved by the U.S. Food and Drug Administration (FDA).
Primary Objective: To determine if treatment with SRS followed by a HER-2 directed therapy regimen results in a 6-month distant brain relapse rate of less than 30%. Secondary Objectives: 1. Describe the natural history of neurocognitive function for women with brain metastases treated with SRS and HER-2 directed systemic therapy and establish a reference benchmark to generate hypothesis for future design of a phase III trial. 2. Describe patterns of distant brain relapse after SRS for all patients and compare them between (a) patients with 1-3 vs. 4-10 brain metastasis and (b) between patients treated with each systemic therapy regimen 3. Describe patterns of neurologic death 4. Describe patterns of local brain relapse 5. Describe patterns of re-irradiation with WBRT or SRS 6. Describe adverse events