View clinical trials related to Brain Tumors.
Filter by:An optimal analgesic therapy is very important for postoperative recovery. In recent years, several studies showed that the prevalence of the moderate to severe pain after craniotomy ranged from 69 to 87% of patients. The investigators showed that the use of morphine based patient controlled analgesia prevented moderate to severe postoperative pain in patients undergoing supratentorial craniotomy. Morphine related side effects such as sedation, miosis, respiratory depression, nausea and vomiting produce a general reluctance for their use in neurosurgery. Therefore, all patients were closely observed to detect opioid related side effects in the intensive care unit for 24 hours following surgery in our previous study. The Integrated Pulmonary Index (IPI) is a new tool that calculates respiratory and hemodynamic parameters noninvasively. In the present study the investigators will use different doses of morphine based patient-controlled analgesia and the IPI system to determine more effective and safer morphine dose for postoperative analgesia following supratentorial craniotomy.
MIRNA is a prospective multi-center observational study designed to explore 762 plasma microRNAs in patients with malignant CNS tumours: 60 primary glioblastoma (GBM), 20 primary CNS lymphomas and 40 brain metastases in an attempt to establish plasma microRNA signatures specific to GBM capable of distinguishing them from malignant non-glial brain tumours. 20 patients with cerebral stroke and 20 healthy volunteers will also participate in the study, and for each patient, a panel of 762 microRNAs will be screened in plasma.
The goal of this study is to explore whether facial expression changes in visual portraits correlate with Quality of Life (QOL) questionnaire responses before and after pet therapy sessions and to compare scores of QOL questionnaires before and after pet therapy.
Although mannitol is used for brain relaxation during neurosurgery and in the treatment of raised intracranial pressure; there is not a consensus on its safe and effective dose, the duration of its administration and its use in combination with loop diuretics. This study aimed to compare the effects of the mannitol alone and in combination with furosemide in different doses, on the brain relaxation, electrolyte, lactate levels of the blood, peroperative fluid balance and the volume of the urine in supratentorial mass resection surgeries. This prospective, randomized, double blind, placebo controlled study included fifty one patients (ASA I-III) scheduled for elective supratentorial mass resection surgery. The patients were randomized into three groups for investigation of the effects of mannitol alone and in combination with furosemide in different doses. Blood sodium, potassium, chlorine, lactate, urine and osmolarity levels were recorded. The brain relaxation score (BRS) was evaluated twice by the surgeon using a 4 point scale (1=very good, 2=good, 3=bad, 4=very bad); at dura opening, and 30 minutes after the administration of the study drug.
The purpose of this pilot study is to test new magnetic resonance imaging (MRI) acquisition and processing techniques on primary brain tumor patients. The objectives are to improve image-guided radiation therapy (IGRT) planning (first part of the study) and treatment monitoring (second part).
Hyperosmotic solutions of 1.5% and 3% NaCl are equally effective for brain relaxation and microcirculation during brain surgery. The effect of 1.5% NaCl on postoperative natremia and natriuresis is less pronounced.
Frailty as an adjunct to preoperative assessment of neurosurgical patients has never been evaluated. This study aims to determine if frailty predicts neurosurgical complications in brain tumor patients and enhances current perioperative risk models.
This study evaluates the feasibility and utility of two behavioural programs designed to reduce cognitive impairments secondary to brain tumors and/or their treatment. One-third of participants will complete training in either program, with the remaining third a wait-list control group.
This pilot clinical trial study will assess the inflammatory response of brain tumors or other central nervous system conditions in pediatric and adult patients using ferumoxytol-enhanced MRI. Imaging features will be correlated with the number of inflammatory cells (macrophages) at histopathology. Determining the extent of inflammation associated with pathologies in the central nervous system may be helpful for diagnostic and prognostic purposes as well as monitoring treatment response of current and future immunotherapies.
The main purpose of this study is to determine the potential clinical utility of PET imaging using the radiotracer [C-11]alpha-methyl-L-tryptophan in the diagnosis, differentiation and monitoring of various brain tumors, both before and after initial treatment. We will also study mechanisms and clinical significance of abnormal brain tumor tryptophan metabolism using resected tumor tissues.