View clinical trials related to Brain Neoplasm.
Filter by:This clinical trial tests whether a new imaging technique called magnetic resonance elastography (MRE) is useful in determining the consistency of brain tumors and whether this could be used to guide surgical planning and choice of approach (the type of surgery that is needed) for patients with brain tumors. Comparing MRE with the typical magnetic resonance imaging (MRI) scan may help researchers assess the quality, reliability, and diagnostic utility of this scan when evaluating brain tumors.
This study determines whether non-invasive evaluation using repeated magnetic resonance imaging (MRI) scans and repeated blood biomarker measurements can be used to predict changes in a person's mental functions that result from radiation exposure to the brain. This study may let researchers monitor patient responses to treatment and the disease better and possibly make changes to patient treatment, if needed.
This clinical trial evaluates the side effects and possible benefits of operating on brain tumors prior to the tumor coming back (recurrence). Understanding when surgery is most useful to patients with brain tumors is important. Some patients may undergo chemotherapy or radiation but still have visible tumor remaining after treatment. The purpose of this research is to compare outcomes of those who have surgery after chemotherapy or radiation, but prior to tumor recurrence, to those who have surgery at a different time, or no surgery at all.
This study investigates how seizures can vary over time with changes in low grade gliomas and its treatments. This study may help doctors find symptoms or triggers of seizures earlier than normal, and ultimately earlier care or treatment for seizures.
This trial studies different magnetic resonance imaging (MRI) techniques and their ability to provide clearer pictures of lesions in patients with high grade brain lesions. An MRI is a type of imaging scan. Using different MRI techniques to produce clearer images of the brain may help researchers learn about the features of brain lesions and the effects of chemotherapy and/or radiation therapy.
This trial studies how well navigated repetitive transcranial magnetic stimulation works in improving motor rehabilitation in participants with brain tumors. Navigated repetitive transcranial magnetic stimulation may help improve patients' lost motor function after surgery.
This phase II trial studies ferumoxytol in the magnetic resonance imaging of pediatric patients with brain tumors. Magnetic resonance imaging using ferumoxytol may help in viewing a brain tumor and blood vessels in and around the tumor in a different way than the standard gadolinium-based contrast agent. Imaging with this experimental contrast agent may give doctors more information about tumor blood supply and the extent of the tumor itself.
FET PET 2010 is a prospective, multicentre trial aiming to evaluate the additional benefit of FET PET in the assessment of remission after first line therapy and during follow-up
Several modalities have been studied to prevent coughing during emergence, including extubation in a deep plane of anesthesia but have proved to be unreliable. So far, no reliable method is recommended as standard of care. The advantages of administering tramadol includes a long duration of action, rapid recovery, limited depression of respiratory function and no effect on platelet makes it a safe medication to use for neurosurgical patients after craniotomy. The primary objective of the study is to observe the effect of single dose of tramadol (1mg/kg) administered 45 minutes before extubation on hemodynamic response (measurement of B.P and H.R) during extubation.
Primary brain cancer kills up to 10,000 Americans a year. These brain tumors are typically treated by surgery, radiation therapy and chemotherapy, either individually or in combination. Present therapies are inadequate, as evidenced by the low 5-year survival rate for brain cancer patients, with median survival at approximately 12 months. Glioma is the most common form of primary brain cancer, afflicting approximately 7,000 patients in the United States each year. These highly malignant cancers remain a significant unmet clinical need in oncology. GBM often has a high expression EFGR (Epidermal Growth Factor Receptor) which is blocked by Cetuximab (CTX). The investigators have recently completed a separate Phase I clinical trial using superselective intra-arterial cerebral infusion (SIACI) of CTX after blood brain barrier disruption (BBBD) for recurrent GBM (Chakraborty et al, in revision, Journal of Neurooncology). The investigators found that intra-arterial infusion of CTX is well tolerated with few adverse effects. The investigators hypothesize that in patients with newly diagnosed GBM, repeated SIACI of this drug after BBBD will be safe and efficacious for our patients when combined with standard chemoradiation (STUPP protocol). This trial will be a non-randomized open label Phase I/II clinical trial. In addition to standard chemotherapy and radiation therapy (STUPP protocol) the patient will be given CTX intra-arterially after BBBD for a total of three doses at approximately post surgery days 30, 120 and 210.