Spots Global Cancer Trial Database for Novel Multimodality Imaging for Navigation in Skull Base Surgery
The following info and data is provided "as is" to help patients around the globe.
We do not endorse or review these studies in any way.
Trial Identification
Brief Title: Novel Multimodality Imaging for Navigation in Skull Base Surgery
Official Title: Novel Multimodality Imaging Techniques for Neurosurgical Planning and Stereotactic Navigation in Lateral Skull Base Surgery: a Feasibility Study
Study ID: NCT04128345
Conditions
Interventions
Study Description
Brief Summary: 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.
Detailed Description:
Keywords
Eligibility
Minimum Age: 18 Years
Eligible Ages: ADULT, OLDER_ADULT
Sex: ALL
Healthy Volunteers: No
Locations
University College London/University College London Hospitals Joint Research Office, London, , United Kingdom
Contact Details
Take Control of Your Skin and Body Changes Today.
Try out Spots for free, set up only takes 2 mins.
Join others from around the world:
