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Clinical Trial Summary

Swallowing function is controlled by two swallowing centres (one on each half of the brain). There is a dominant and non-dominant swallowing centre. Damage to any part of the brain can lead to swallowing problems, for example in strokes. Recovery of the ability to swallow is associated with increased activity (compensation) over the undamaged centre. The cerebellum is an area of the brain involved in the control and modulation of muscle movements. It is found at the back of the skull. Anatomical evidence exists, showing cerebellar outputs projecting to several cortical areas, including the primary motor cortex (M1). Moreover, brain imaging studies have shown activation of the cerebellum during swallowing using positron emission tomography (PET) and magnetic resonance imaging (MRI). Over the past few years studies have tried to improve swallowing function using techniques to stimulate regions of the brain and encourage compensation. Repetitive transcranial magnetic stimulation (rTMS) is a technique which can temporarily increase or suppress activity over regions of the brain. No imaging studies have been conducted which have looked at how the brain is affected by cerebellar rTMS. The investigators hypothesise that cerebellar rTMS will cause increased activity in swallowing associated areas in the brain, including the cortex and brainstem


Clinical Trial Description

Experiment The optimal motor stimulation sites for pharyngeal and thenar cortical areas and the cerebellum will be identified and marked using single pulse TMS with a coil. Anatomical landmarks will be used to help guide neuronavigation. The vertex (top) of the head will be identified with a tape measure as will the inion (the most prominent part at the back of the skull). Studies have demonstrated that pharyngeal (throat) and thenar (thumb) cortical areas are found in front and to the side of the vertex while both halves of the cerebellum lie below and to the side of the inion. The thenar resting motor threshold over the dominant pharyngeal hemisphere is required for calculation of cerebellar rTMS intensity. Participants will then be randomly allocated to either real right sided cerebellar rTMS or sham (pretend) cerebellar rTMS on each visit. Each participant will undergo both procedures (real and sham) over the course of their involvement with the study. Real cerebellar rTMS will be delivered by holding the figure of eight coil flat against the head. It will be administered at 90% of thenar resting motor threshold at a frequency of 10 Hertz. Sham cerebellar rTMS will be delivered by holding the coil perpendicular to the scalp with only the edge of the coils making contact with the head. This technique has been used in previous studies and will ensure that no stimulation is delivered to the cerebellum. After real or sham cerebellar rTMS, participants will have functional magnetic resonance imaging (fMRI) scans of their brains. During the scan participants will be asked to swallow water through a plastic tube. This will activate their brain swallowing centres. Each participant will be asked to complete five swallowing cycles. Each cycle will involve swallowing 10 times with a one second gap between swallows. Cycles will be separated by a 10 second period of rest. ;


Study Design


NCT number NCT05736380
Study type Interventional
Source University of Manchester
Contact
Status Suspended
Phase N/A
Start date September 1, 2023
Completion date December 31, 2024