Active clinical trials for "Brain Neoplasms"

In this study the patient will receive either whole brain radiation therapy given by intensity modulated radiation therapy (IMRT) or standard conventional radiation. In IMRT therapy radiation dose to the parts of the brain that do not contain tumors is reduced. This study will look to see if this approach results in less hair loss or fewer memory Problems, as compared to the standard technique. The study will also look at the effectiveness of both techniques in controlling the growth of the tumor.

Trial Hypothesis: Acute, progressing lethal neurooncological process can be transferred into chronic and non-lethal, the survival rates and life quality can be improved by of control of tumor cells (TCs) quantity and targeted regulation of effector functions of tumor stem cells (TSCs). Brief Description: The first line therapy of brain metastases of lung cancer (BMLC) involves allogeneic haploidentical hematopoietic stem cells (HSCs), dendritic vaccine (DV) and cytotoxic lymphocytes (CTLs). TCs and TSCs are isolated from BMLC sample. Dendritic cells are isolated from peripheral blood mononuclear cells and cultured. Tumor sample provides tumor specific antigens to prepare DV. CTLs are obtained from peripheral blood after DV administrations. HSCs are harvested from closely related donor after granulocyte-colony-stimulating factor (G-CSF) administration. Allogeneic HSCs are administered intrathecally 5 times every 2 weeks, at day 1, 14, 28, 42, 56. DV is given 3 times every 2 weeks (day 14, 28, 42) subcutaneously in four points. CTLs are administered every 2 weeks for 3 months, then 3 times every 1 month intrathecally. Six months after the therapy completion, the efficiency is evaluated and the cohort demonstrating efficiency continues the therapy, while cohort demonstrating no efficiency is transferred to active comparator arm. Second line therapy involves DV with recombinant proteins, CTLs and autologous HSC with modified proteome. Autologous HSCs are mobilized by G-CSF. Carcinogenesis-free intracellular pathways of signal transduction able to respond to targeted regulation of therapeutic cell systems with specific properties, are detected in TSCs using complete transcriptome profiling of gene expression, proteome mapping and profiling of proteins, bioinformation and mathematical analysis and mathematical modeling of protein profiles. To find key oncospecific proteins in TSCs and TCs, the targets for TSCs regulation are detected, as well as protein ligands able to regulate reproductive and proliferative properties of TSCs. Using these data of TCs and TSCs proteins, the cell preparations to initiate adoptive immune response are prepared: DV loaded with recombinant proteins analogous to key tumor antigens, CTLs and autologous proteome-based HSCs. Autologous proteome-modified HSCs, DV and CTLs are administered as in the first line therapy.

The purpose of this study is to evaluate the safety and efficacy of icotinib in combination with whole brain radiotherapy for NSCLC patients with brain metastases. The primary endpoint is objective response rate of intracranial lesions.

This is a multi-center phase II randomized controlled study to assess the efficacy of Pemetrexed/cisplatin with or without Bevacizumab on patients with brain metastasis from non-small cell lung cancer(NSCLC) harboring EGFR wild type by intracranial PFS(iPFS),also PFS ,DCR and OS.The side effect is evaluated as well.

An excellent recovery profile is critical for neurosurgical anesthesia. Rapid awakening, smooth blood pressure and heart rate (HR), a higher degree of coordination, painless or mild pain, as well as better tolerance to endotracheal intubation can avoid can increased intracranial pressure, elevated blood pressure and rapid HR caused by emergency choking, suffocation and agitation, and can reduce postoperative cerebral edema and the risk of bleeding. In addition, it is easy for surgeons to timely evaluate postoperative patients' neurologic function based on the excellent recovery from anesthesia. Up to now, there are many methods and drugs to improve the quality of recovery period, but each of them has some flaws. Dexmedetomidine, an emerging anesthetic adjuvant, exhibits a stable hemodynamic recovery period, and cannot affect evaluation of neurological function with both the sedative and analgesic effects. We propose the following hypotheses: (1) A small dose of dexmedetomidine can be intravenously injected into patients subjected to craniotomy under general anesthesia, in order to improve the recovery profiles and reduce the incidence of emergence agitation. (2) Dexmedetomidine can reduce postoperative pain.

The goal of this clinical research study is to learn if using a new imaging solution, 3'-Deoxy-3'-18f-Fluorothymidine, in a positron emission tomography (PET) scan can help doctors determine if your brain lesion is from the tumor returning or the effects of previous treatments. The results of this imaging scan (called an FLT PET scan) will be compared to the results of a Magnetic Resonance Imaging scan, which you have already had or are scheduled to have outside of this study.

The primary objective of A-PLUS trial is to evaluate and compare the efficacy of induction BEEP (bevacizumab preconditioning followed by etoposide and cisplatin) followed by whole bran radiotherapy (WBRT) with WBRT alone in the controlling of brain metastases (BM) in metastatic breast cancer (MBC) patients who have not previously received WBRT. In past 2 years, the research team has demonstrated that BEEP regimen is a highly effective treatment for brain metastases of breast cancer progressing from WBRT by a multi-center phase II study (ClinicalTrials.gov Identifier: NCT01281696). The basic concept of preconditioning, as referred to starting bevacizumab 1 day before chemotherapy, is that the effect of bevacizumab induced tumor vascular normalization takes time to mature. The investigators hypothesized that as induction BEEP decreased the size of brain tumors, the effectiveness of WBRT would be maximized. The investigators expect this integrated approach will do greater benefit to MBC patients with BM, irrespective of subtype.

This study will evaluate the safety and efficacy of a chemotherapeutic drug (topotecan) as it is given directly into brain tumors by a delivery technique called convection-enhanced delivery. This drug has been used for different types of cancer, but in this study it will be given by an experimental delivery technique designed to maximize the amount of drug delivered to the brain tumor and minimize the side effects in other parts of the body. This study will also evaluate advanced magnetic resonance (MR) imaging techniques. The study will assess quality of life parameters throughout the follow-up period.

PSMA is a transmembrane protein specifically expressed in the vascular endothelium of malignant brain tumors, most notably glioblastoma and not in healthy brain parenchyma. It has been shown to be involved in (neo)angiogenesis and endothelial cell invasion. By means of 68Ga-labeled PSMA ligands, investigators are able to non-invasively visualize/quantify PSMA expression in glioblastoma (neo)vasculature in vivo by means of PET. The primary aim of this study is to confirm PSMA as suitable diagnostic and potential theranostic target in patients with intra-axial brain tumors by means of [68Ga]Ga-PSMA-HBEC-CC ([68Ga]Ga-PSMA-11) PET. The secondary aim is to assess whether uptake is increased with intra-arterial injection in those tumors that show uptake after intravenous injection of [68Ga]Ga-PSMA-11.

To compare presurgical motor mapping by navigated transcranial magnetic stimulation for surgery (nTMS) of rolandic lesions to surgery with mapping without implementing these data into neuronavigation as control. Primary objective: Permanently new postoperative deficit is lower when the preoperative motor mapping is available to the surgeon