View clinical trials related to Meningioma.
Filter by:This study aims to investigate the effect of external lumbar cistern drainage in preventing postoperative hydrocephalus in patients who have undergone meningioma surgery and its impact on patient satisfaction.
Petroclival meningioma (PCM) is a technically challenging lesion. We aimed to analyze the role of various skull base approaches and evaluate the therapeutic outcomes guided by the modified classification. We retrospectively analyzed the clinical characteristics, surgical approaches, outcomes and follow-up data from 179 cases of PCM from January 2011 to December 2020. We modified the previous classification into updated five types with two subtypes: clivus type (CV), petroclival type (PC), petroclivosphenoidal type (PC-S), sphenopetroclival type (S-PC) with two subtypes of S-PC I and S-PC II and central skull base type (CSB). Statistical analysis was performed using IBM SPSS Statistical Package 21.0. The t-test was performed to clinical data comparisons between the two groups and the ANOVA test was used to compare the difference between multiple groups. P < 0.05 was considered statistically significant.
The use of radiotherapy for irradiation of all or part of the brain, in the treatment of extracerebral intracranial neoplasms, is growing rapidly, both due to the increase in diagnoses of primary tumors thanks to new imaging methods, and for the increase in the number of new cases of cancer. Cerebral neurotoxicity linked to radiation treatment is an adverse effect that is not always accurately evaluated based on the prognosis of some brain pathologies. The progression of diagnostic and therapeutic methods has recently generated a modification of therapeutic protocols and some categories of radiotreated patients may incur acute, subacute and late effects. These include manifestations of acute neurological deterioration, more frequently effects classified as sub-acute such as "somnolence syndrome" (from 2 to 6 weeks after the end of treatment) and finally late effects, which manifest themselves as a variety of neurological deficits in particular a decline in cognitive brain functions, probably linked to a direct effect on neurons or the result of an imbalance in the connections between white matter and cerebral gray matter. In relation to the myelin function of conduction of axonal transmission, the result of radio-induced damage in this site would manifest itself with a significant reduction in the speed of transmission of the impulse and consequently with a dramatic worsening of cognitive processes. In particular, clinically, radiologically and in some cases also from a pathological point of view, the damage from rays on the brain parenchyma would have aspects similar to those of a degenerative pathology such as Alzheimer's disease. These effects are usually measured on the patient by subjective assessments or using neuropsychological tests. The use, not only experimental, of neurophysiological methods for the study of cognitive processes in neurology and in degenerative disorders such as dementia is increasingly frequent. These methods are based on the study of specific neuronal circuits involved in the cognitive functions of the human brain in normal conditions and in the presence of pathology. Among the techniques that allow an analysis of molecular alterations in vivo there are scintigraphic ones, i.e. nuclear medicine ones, including single photon emission tomography (SPET) and positron emission tomography (PET).
cephaloceles are rare lesions of the petrous apex, inconsistently listed as meningoceles or arachnoid cysts. They're consistent with a herniation posterolateral of the Meckel cavum within the petrous apex. These lesions may be the cause of a symptomatology varied, or be discovered by chance in subjects who have not been asymptomatic. Currently, there is no evidence in the literature a simple, fast and reproducible radiological marker that allows for the diagnosis of cephaloceles of the petrous apex, in particular the small ones. The purpose of this study is to validate a radiological benchmark simple and reproducible, the trigeminal petrol line, in order to improve the diagnosis of petrous apex cephaloceles
Tumor dosimetry with somatostatin receptor-targeted peptide receptor radionuclide therapy (SSTR-targeted PRRT) by 177Lutetium-DOTATATE might contribute to improve follow-up and treatment response of refractory meningiomas. This study aims to evaluate Standard Uptake Value mean (SUVmean) as a tumoral absorbed dose predictive predictive factor and propose semi-automated segmentation method to determine metabolic tumor volume with pretherapeutic 68-Gallium-DOTATOC PET.
U-Net-based architectures will be applied to 500 contrast-enhanced axial MR images of different patients from a single institution after manual segmentation of meningioma, of which 50 were used for testing. Tumor volumetry after autosegmentation by trained U-Net-based architecture is final goal.
Cerebral blood flow (CBF) is of paramount importance to human brain function, as the brain relies on a continuous blood supply to meet its energy needs. Blockage of a cerebral blood vessel during neurosurgery, even if transient and short-lived, may result in irreversible brain tissue damage (i.e. stroke) and loss of cortical function, if not identified quickly enough. Laser speckle contrast imaging (LSCI) has been demonstrated to provide the ability to visualize flow in vessels in real time and continuously without the need for contrast agents. In LSCI, the tissue of interest is illuminated with low power laser light at red or near infrared wavelengths and the light reflected from the tissue surface is imaged onto a camera. The resulting images are laser speckle patterns and a computer processes the images to produce speckle contrast images, which are images of the motion within the field of view (ie, blood flow). The purpose of this clinical investigation is to assess the usefulness and accuracy of LSCI compared to ICGA and/or FA during neurovascular surgery. LSCI videos will be recorded automatically intraoperatively in each patient before, during, and after ICGA and/or FA in the same surgical field of view to guarantee comparability of the methods.
Brachial plexus blocks used for anesthesia in upper extremity operations can be performed with interscalene, axillary, supraclavicular and infraclavicular approaches. Plexus blockage can be performed under the guidance of needle nerve stimulation, artery palpation or ultrasonography (USG). Nowadays, the simultaneous use of USG during the block allows the protection of structures such as nerves, pleura and vessels, and allows practitioners to see the needle and the spread of local anesthetic during the injection. Although supraclavicular block seems to be advantageous because the brachial plexus is more compact and superficial in this region, it has a disadvantage of being close to the pleura. (Increased risk of pneumothorax) With the use of USG, this risk has decreased and the supraclavicular block has become an alternative to infraclavicular block, which is widely used in upper extremity surgery. Due to the compact structure of the brachial plexus trunk at the first rib level, the application of the block is easier and the block formation is faster due to the peripheral spread of the local anesthetic. With the spread of local anesthetic to C3-C5 nerve roots in the brachial plexus, paralysis can be seen in the ipsilateral phrenic nerve up to 67%. Patients who will be operated on, especially in patients with respiratory distress, may experience respiratory distress due to the dysfunction of that side diaphragm muscle. With the help of ultrasound, the inspiratory and end-expiratory thickness of the diaphragm is measured with the Diaphragm Thickness Index (DTI), which is a new and effective method used as a mechanical ventilator weaning index in intensive care units. With this method, we can examine the effect of phrenic nerve block on diaphragm muscle due to local anesthesia in the acute period. DTI is calculated as a percentage from the following formula: (Max thickness at the end of inspiration - Max thickness at the end of the expiration) / Max thickness at the end of the expiration. By comparing 3 different approaches used in supraclavicular block, we aimed to investigate the most appropriate block approach in terms of effectiveness, speed, complication rate, effects on diaphragm and 6 months effects.
In this study, meningioma organoids will be established from patients' tissues and the characterization of the organoid will be performed.
This Phase 3 open-label single-arm study is designed to investigate the safety, diagnostic performance, and clinical usefulness of Gleolan for the real time detection and visualization of meningiomas during tumor resection surgery. The study is planned to run for 15 months with individual study participation lasting for approximately 2 months.