View clinical trials related to Vestibular Schwannoma.
Filter by:MR Fingerprinting (MRF) will be performed in patients who will be treated with Gamma Knife radio surgery for a vestibular schwannoma before the intervention. Fifty patients will be included with a vestibular schwannoma of minimum 1cm in size. During follow-up, response of the tumor to radiosurgery will be evaluated for each patient with MRI. The aim of the study is to find patterns of vestibular schwannomas in MRF data which correlate with the type of response to radio surgery, i.e. tumor control after radiosurgery, further tumor growth despite radiosurgery, cystic transformation after radiosurgery.
Title: Intraoperative application of nimodipine to the facial and cochlear nerves during vestibular schwannoma resection to avoid spasm-related postoperative facial paralysis and deafness - a prospective randomized study Background: In patients undergoing microsurgical resection of a vestibular schwannoma, the facial and vestibulocochlear nerves are at risk. Prior studies suggested positive effects of nimodipine for preservation of the nerve function in these patients. A prospective, randomized, placebo controlled double-blinded study will be conducted to evaluate the neuro-protective effect of locally administered nimodipine during resection of vestibular schwannomas. Investigational drug: active group: "Nimotop® 10mg - Infusionsflasche" placebo: "Natrium chloratum physiologicum 0,9% - Medica Infusionslösung" Rationale for the study: Nimodipine is supposed to counteract the vasoconstriction of cerebral arteries caused by microsurgical manipulation and might thereby preserve facial and cochlear nerve function Aims of the study: Evaluation of the effect of intraoperative local administration of nimodipine on the postoperative function of the facial and vestibulocochlear nerves after microsurgical resection of vestibular schwannomas Study design: prospective, double-blinded, single-center, randomized phase III trial Study population: Patients undergoing microsurgical resection of a vestibularis schwannoma with a maximum diameter of 10-25mm on MRI at the Department of Neurosurgery, Medical university of Vienna. Number of Patients: 30 Methods: In 15 patients, nimodipine will be administered locally to the facial and vestibulocochlear nerves during resection of a vestibular schwannoma (= treatment group). In another 15 patients, a placebo (sodium chloride solution) will be administered. In both cases, a soaked gel foam pad will be used. The operating team and the patient will both be blinded during the procedure. Facial nerve function and hearing will be assessed prior and three months after surgery. Outcome variables: Serviceable or non-serviceable hearing according to Gardner-Robertson hearing scale and House-Brackmann score for the assessment of facial nerve function Statistical analysis: For the evaluation of the postoperative function of the vestibulocochlear nerve, the number of patients with postoperative serviceable hearing (Gardner-Robertson I-II) and postoperative non-serviceable hearing (Gardner-Robertson III-V) will be compared between both groups. For the evaluation of the facial nerve function, the number of patients with favorable postoperative outcome (House-Brackmann I-III) and non-favorable postoperative outcome (House-Brackmann IV-VI) will be compared. In both cases, fisher's exact test will be used. Expected risks/inconveniences: Administration of nimodipine is associated with the following adverse effects: thrombocytopenia, allergic reactions, headache, tachycardia, hypotension, nausea (occasionally) and bradycardia, ileus, reversibly elevated liver enzymes (seldom) Risk/benefit assessment: Expected adverse effects of local nimodipine administration are manageable and patients may profit from the use of nimodipine. No severe adverse events are expected.
Patients undergoing surgery of a vestibular schwannoma will be included in the study. Patients will receive triamcinolone acetonide 24h before surgery. During translabyrinthine surgery cochlear perilymph, perilymph from the semicircular canal and cerebrospinal fluid will be taken and analyzed for triamcinolone content. In patients undergoing middle fossa or retrosigmoid resection only cerebrospinal fluid will be taken and analyzed for triamcinolone acetonide level.
This study is designed to examine the true impact inner-ear dysfunction has on patient head movement kinematics, activity levels, and participation, and (2) to explore the efficacy of rehabilitation on laboratory, clinical, and community-based outcomes in people following surgical removal of a schwannoma from the inner-ear nerve.
This is a multi-arm phase II platform-basket screening study designed to test multiple experimental therapies simultaneously in patients with NF2-related schwannomatosis (NF2-SWN, formerly known as neurofibromatosis type 2) with associated progressive tumors of vestibular schwannomas (VS), non-vestibular schwannomas (non-VS), meningiomas, and ependymomas. This Master Study is being conducted as a "basket" study that may allow people with multiple tumor types associated with NF2-SWN to receive new drugs throughout this study. Embedded within the Master Study are individual drug substudies. - Investigational Drug Sub-study A: Brigatinib - Investigational Drug Sub-study B: Neratinib
The purpose of this study is to see if there is benefit to using an IV contrast called AK-Fluor® and a microscope filter called YELLOW560 when surgically removing a vestibular schwannoma, Meningioma, Head and Neck Paraganglioma, or Head and Neck Schwannoma.
The Auditory Nerve Test System (ANTS) is a novel device that stimulates the auditory nerve much like a cochlear implant. The purpose of this study is to demonstrate feasibility of the ANTS during translabyrinthine surgery for vestibular schwannoma resection. If the auditory nerve is kept intact, then the patients will also receive a cochlear implant at the same time potentially alleviating the morbidities caused by a vestibular schwannoma and asymmetric sensorineural hearing loss.
Multiple sensory cues are typically generated by discrete events, and while they do not reach the cerebrum simultaneously, the brain can bind them temporally if they are interpreted as corresponding to a single event. The temporal binding of vestibular and non-vestibular sensory cues is poorly understood and has not been studied in detail, despite the fact that the vestibular system operates in an inherently multimodal environment. In this study, the researchers are investigating the physiology and pathophysiology of vestibular temporal binding by studying normal subjects, patients with peripheral and central vestibular dysfunction, and patients with vestibular and cochlear signals provided by prosthetic implants in the inner ear.
Successful neurosurgery to remove tumours around the base of the skull, such as a vestibular schwannoma, depends on achieving maximal tumour removal whilst preserving crucial neurological functions such as facial movement, and maintaining quality of life. Current techniques to direct surgery are based on the surgeon's expertise and knowledge of the relevant anatomy, supplemented by the use of electrical recording and stimulation of the facial nerve. However, it is often very difficult to visualise the nerve during surgery and facial nerve paralysis remains a potentially devastating complication of surgery. Advanced imaging methods may be used to visualise important neural connections in the brain and computer-assisted processing can generate tumour maps from MRI and ultrasound scans. This study aims to utilise these technologies to develop a 3D navigation system for skull base surgery. This study aims to develop a system that will combine MRI and intraoperative ultrasound imaging to enhance the surgeon's view of the tumour, facial nerve and other surrounding critical structures during surgery. This information will be made available in the navigation system in the operating room so that operations are more precise resulting in better tumour removal rates and fewer complications. The system will be assessed during the treatment of 20 patients with vestibular schwannoma at the National Hospital for Neurology and Neurosurgery. This feasibility study will validate the different parts of the new system and help us design a future research study to determine its effectiveness in improving patient care. This project will result in safer and more effective neurosurgery, with potential consequent financial savings for the NHS and the UK, in addition to marked improvements in the quality of life of patients and reduced dependency upon others.
Vestibular schwannomas (VS) arise from the vestibulocochlear (hearing and balance) nerve, located at the base of the brain. Although benign, VS can enlarge over time, resulting in debilitating symptoms; therefore, surgical removal is frequently offered. One significant risk of surgery is inadvertent injury to the facial nerve, which lies adjacent to the vestibulocochlear nerve. Currently, the nerve's course is only revealed during surgical dissection and injury can cause permanent facial weakness. It would therefore be useful for the surgeon to know the course of the nerve before operating. To this end, a new MRI technique known as probabilistic diffusion tensor tractography (DTT) has shown potential in revealing the course of the facial nerve pre-operatively. However, its clinical reliability remains uncertain. This study aims to investigate the reliability of DTT in identifying the course of the facial nerve preoperatively in patients undergoing surgery for VS. The future benefit would be to enable surgeons to operate with more confidence and potentially reduce the chance of nerve injury. The study will recruit adult patients due to have surgery for VS. The only change to the participants' clinical pathways will be the addition of a DTT sequence to their pre-operative MRI scans (increasing scanning time by approximately 10 minutes).