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TUS to Disrupt Pathological Oscillations
Sponsor: University of Oxford
Summary
Scientists and clinicians are interested in measuring and perturbing the signals in the brain - both to better understand normal operation and explore new therapy options for disease. One example of a signal is a "brainwave," also called a neural oscillation, which is a periodic oscillation of the electrical signals in the brain and which are linked to both normal and abnormal brain function. When circuits in the brain are not working properly, investigators can see changes in the characteristics of these oscillations. Many neurological conditions produce changes in brainwaves. For example, in patients with Parkinson's disease, oscillations in the "beta band" (approximately 15Hz) are observed to be more prominent. In another example, investigators see similar large oscillations in the presence of a seizure in people with epilepsy. Disrupting these abnormal oscillations can treat some of the symptoms of disease. One example of this is found in Parkinson's disease, where surgeons can implant electrodes deep in the brain and electrically stimulate cells by a process called deep brain stimulation (DBS). With DBS, it is possible to suppress these beta oscillations and improve symptoms. However, DBS is a highly invasive procedure that includes the need for a burr hole in the skull, placement of the electrode in the brain, and insertion of a "pacemaker" in the chest with wires tunnelled through the neck. The investigators propose to use ultrasound to modify pathological brainwaves non-invasively. While the proof-of-concept is in Parkinson's disease, the potential impact is much broader - if successful, the investigators will provide a non-invasive paradigm for probing the brain and exploring novel treatments for neurological conditions, such as pain and cognitive disorders.
Official title: Transcranial Ultrasound to Disrupt Pathological Oscillations in the Brain of People With Parkinson's Disease and Other Neurological Disorders
Key Details
Gender
All
Age Range
18 Years - Any
Study Type
INTERVENTIONAL
Enrollment
30
Start Date
2024-02-28
Completion Date
2028-07-09
Last Updated
2025-04-17
Healthy Volunteers
No
Conditions
Interventions
Transcranial Focussed Ultrasound - Active
Transcranial focussed ultrasound to target site
Transcranial Focussed Ultrasound - Sham
Transcranial focussed ultrasound off
Transcranial Focussed Ultrasound - Active control
Transcranial focussed ultrasound on to control
Locations (1)
University of Oxford
Oxford, United Kingdom