View clinical trials related to Brain Metastases.
Filter by:The purpose of the study is to investigate the response rate for triple negative breast cancer patients with brain metastasis when INIPARIB is used in combination with irinotecan. Based on data generated by BiPar/Sanofi, it is concluded that iniparib does not possess characteristics typical of the PARP inhibitor class. The exact mechanism has not yet been fully elucidated, however based on experiments on tumor cells performed in the laboratory, iniparib is a novel investigational anti-cancer agent that induces gamma-H2AX (a marker of DNA damage) in tumor cell lines, induces cell cycle arrest in the G2/M phase in tumor cell lines, and potentiates the cell cycle effects of DNA damaging modalities in tumor cell lines. Investigations into potential targets of iniparib and its metabolites are ongoing.
The aim of this Proof of Concept study is to determine the therapeutic potential of the L19SIP antibody, labeled with the radionuclide 131I in combination with external beam radiation, for the treatment of patients with multiple brain metastases following the promising results with this agent in previous clinical studies. The L19SIP antibody is a fully human antibody, capable of preferential localization around tumor blood vessels while sparing normal tissues. The formation of new blood vessels is a rare event in the adult (exception made for the female reproductive cycle), but is a pathological feature in most aggressive types of cancer. The presented study follows a Phase I and a subsequent Phase I/II dose finding and efficacy study with the same agent in patients with a variety of cancers where 131I-L19SIP had shown an excellent tolerability and therapeutic benefit for some patients enrolled in the study.
The purpose of this study is to determine the maximum dose of sunitinib that can be tolerated when treatment is combined with radiotherapy. Patients who decide to take part in the study will start taking sunitinib alone for 7 days. On the seventh day of taking sunitinib, patients will be given stereotactic radiosurgery (SRS). The dose of radiation that patients will receive when they are given SRS is a standard dose used to help shrink brain metastases. The dose of radiation and the way it is delivered is not experimental. Patients will then continue to take sunitinib seven days per week after SRS, and depending on how far along the study is when they join, they may continue taking the drug for up to 13 weeks after SRS. Patients will undergo weekly assessment during study treatment.
The purpose of this study is to demonstrate the safety of giving Whole Brain Radiotherapy (WBRT) together with intrathecal liposomal cytarabine (DepoCyte®) for patients with leptomeningeal metastases. The study will compare the safety of giving DepoCyte at the same time as WBRT with giving the drug after WBRT is complete.
The purpose of this study is to evaluate the potential of [18F]-ML-10 to serve as a non-invasive imaging tool for the early detection of apoptosis in brain metastases in response to radiation therapy. Such early detection may improve clinical management of patients with brain metastases, as it may help early identification of non-responders, and subsequently potentially lead to optimization of radiation dose, early decision on focal irradiation of selected, non-responsive lesions, or early referral of the patient to surgery. The experimental design of the present study aims to evaluate the potential of non-invasive PET examination with [18F]-ML-10, to provide the clinician early in the course of treatment, via non-invasive molecular imaging of radiation-induced apoptosis, information on tumor responsiveness, that is currently available only several weeks to months after completion of the radiotherapy.
Sorafenibâ„¢ has the potential to inhibit tumor growth, tumor angiogenesis , and enhance radiation response. This study will test the combination of Sorafenibâ„¢ and radiation therapy with or without temozolomide to determine tolerance of the combined treatments. Defining safe dosing of Sorafenibâ„¢ in this combination therapy will be achieved.
Objectives: Primary - Determine the maximum tolerated dose (MTD) and evaluate the dose limiting toxicities (DLT) of combining lapatinib and temozolomideSecondary - Obtain preliminary information on the clinical anti-tumor activity of lapatinib plus temozolomide on brain metastases secondary to HER-2 positive breast cancer including Objective Response Rate (ORR), Clinical Benefit (CB) and Duration of Response (DR) Methodology: Phase I, single-centre, open-label, dose-escalation study of combining lapatinib and temozolomide in HER-2 positive breast cancer patients with progressive brain metastases after surgery or radiotherapy or radiosurgery Treatment: Temozolomide will be given orally for 5 days of every 28 days, at doses of either 100mg/m2/day or 150mg/m2/day or 200mg/m2/day AND Lapatinib will be given orally every day at either 1000mg/day or 1250mg/day or 1500mg/day.Sequential cohorts will be escalated in increments according to the dose escalation scheme, and determined by dose limiting toxicities.
Gamma Knife radiosurgery is a non-invasive technique for the delivery of a single, high dose of radiation to an intra-cranial target. MRI has an established and central role in the treatment planning process and assessment of response to intracranial radiosurgery. Increasing the field strength of MRI from 1.5T to 3T promises to improve the signal, and in turn the quality of images. However, the technology also introduces new limitations, and the role and safety of 3T MRI in the management of patients receiving radiosurgery has not yet been reported. In this pilot study, we will explore the spatial integrity, and incremental image-guidance utility of 3T MRI in patients receiving radiosurgery. The preliminary data acquired in this study will be instrumental to the judicious design and conduct of subsequent definitive clinical trials. Up to fifty patients will be enrolled in this study.
This study has been designed to compile information on the efficacy of the GliaSite RTS combined with radiosurgery in the treatment of newly diagnosed metastatic brain tumors.
The protocol is designed to determine the efficacy of temozolomide in preventing the development of new brain metastases within the first year in patients undergoing stereotactic radiation for newly diagnosed brain metastases.