Search clinical trials by condition, location and status
This is an open-label, multicenter, Phase 1 study to determine the safety and efficacy of multiple doses at defined intervals of rhenium (186Re) obisbemeda (rhenium-186 nanoliposome, 186RNL) administered via intraventricular catheter for any primary solid tumor cancer with leptomeningeal metastases to identify an MTD/MFD for a given dose, interval duration, and number of doses.
Traditional clinical trials in patients with breast cancer leptomeningeal disease (LMD) are challenging as patients often have a rapidly progressive course and prognosis is poor, making meeting standard eligibility difficult. Furthermore, there is limited information about the biology of LMD. The investigators thus propose a study that is as inclusive as possible, which will allow the investigators to collect biospecimens and clinical outcomes to learn more about LMD biology, but still potentially provide benefit for patients, by providing patients rapid diagnostics and multi-disciplinary treatment recommendations.
This phase II clinical trial studies how well craniospinal irradiation (CSI) with hippocampal avoidance, using proton therapy or volumetric modulated arc therapy (VMAT), works in treating patients with breast cancer or non-small cell lung cancer (NSCLC) that has spread from the original (primary) tumor to the cerebrospinal fluid (CSF) and meninges (thin layers of tissue that cover and protect the brain and spinal cord) (leptomeningeal metastases). Radiation therapy is an effective treatment in relieving localized symptoms caused by leptomeningeal metastases. However, the type of radiation therapy typically used does not prevent the spread of leptomeningeal disease. CSI (radiation therapy directed at the brain and spinal cord to kill tumor cells) may be able to target all of the areas of possible leptomeningeal tumor spread. CSI may however result in significant neurological side effects due to radiation damage to a part of the brain called the hippocampus. Hippocampal avoidance (HA) reduces the amount of radiation to the hippocampus. Proton or VMAT CSI with HA may be an effective treatment while reducing neurological side effects for patients with leptomeningeal metastases from breast cancer and NSCLC.
This phase III trial compares proton craniospinal irradiation (pCSI) to involved-field radiation therapy (IFRT) for the treatment of breast or non-small cell lung cancer that has spread from where it first started to the cerebrospinal fluid filled space that surrounds the brain and spinal cord (leptomeningeal metastasis). Patients with leptomeningeal metastasis (LM) may develop multiple areas of nervous system (neurologic) impairment that can be life-threatening. Radiation therapy (RT) effectively relieves local symptoms due to LM. RT uses high energy radiography (x-rays), particles, or radioactive seeds to kill cancer cells and shrink tumors. IFRT is commonly used to treat symptoms of LM. IFRT is radiation treatment that uses x-rays to treat specific areas of LM and to relieve and/or prevent symptoms. pCSI uses protons that can be directed with more accuracy than x-rays which allows treatment of the entire central nervous system space containing the cerebrospinal fluid (CSF), brain, and spinal cord. The pCSI treatment could delay the worsening of LM. Giving pCSI may be better than IFRT in treating LM in patients with breast or non-small cell lung cancer.
The goal of this project is to develop and validate a reproducible scorecard for the neurological assessment of patients with leptomeningeal metastases that can be used in clinical trials including such patients, as well as in clinical practice.
This clinical trial evaluates the safety and feasibility of tumor treating fields (TTF) in the treatment of spinal leptomeningeal disease in patients with breast cancer that has spread from where it first started (primary site) to other places in the body (metastatic). Patients wear the portable Novo TTF-200T device that produces electric fields to target areas on the body to stop the growth of tumor cells. The information from this study will help researchers develop a better treatment for leptomeningeal metastases in the future.
The researchers are doing this study to find out whether deferoxamine (DFO) given intrathecally (directly into the CSF) is a safe treatment for people with leptomeningeal metastasis from solid tumor cancer. The researchers will test different doses of DFO to find the highest dose that causes few or mild side effects. When the dose is found, they will test it in future participants to see whether DFO is a safe and effective treatment for people with leptomeningeal metastasis from solid tumor malignancies. They are also doing this study to see how the body absorbs, distributes, gets rid of, and responds to DFO.
Management of leptomeningeal disease (LMD) in patients with metastatic breast cancer is an area of unmet clinical need. High-dose methotrexate (HD-MTX) is known to have activity against breast cancer and in contrast to other systemic chemotherapeutics, it penetrates the blood brain barrier, targets areas of poor cerebrospinal fluid flow, may penetrate bulky leptomeningeal disease, and provide treatment to systemic disease burden. While two retrospective studies have suggested activity of HD-MTX in LMD in patients with breast cancer, no prospective data are available to inform its inclusion in treatment regimens. Thus, while HD-MTX is included in the NCCN Guidelines for LMD and while it is used to varying degrees in cancer centers across the nation, this is more representative of the lack of available therapies for LMD as opposed to strong evidence-based data. This phase II, prospective study will evaluate systemic, intravenous HD-MTX in breast cancer patients with leptomeningeal metastasis with or without brain parenchymal metastasis.
Single institution study to assess the safety of concurrent Azeliragon with craniospinal irradiation (CSI) in patients with leptomeningeal metastasis from solid tumor malignancies and high-grade gliomas.
The purpose of this study is to find out how much tratuzumab deruxtecan (T-DXd) can penetrate the tumor when injected into the body, and whether T-DXd may be an effective treatment for brain cancers that express the HER2 protein.