Orthostatic Tremor Clinical Trial
Official title:
Modulating Dysfunctional Cerebellar Activity With Low-intensity Focused Ultrasound Stimulation for Primary Orthostatic Tremor
Primary orthostatic tremor (POT) is a rare movement disorder that is manifested through high frequency tremor of weight bearing limbs. This is often accompanied by a debilitating sensation of falling. POT has been linked to abnormal activity of the cerebellum, a structure deep within the brain. However, established non-invasive brain stimulation techniques can only modulate brain activity and plasticity in superficial brain areas with low spatial resolution. This limits their efficacy when targeting the cerebellum. In contrast, low intensity focused ultrasound (LIFUS) is a novel non-invasive brain stimulation technique that permits stimulation with high spatial focality and can reach greater depth compared other methods. Therefore, LIFUS is well suited to modulate cerebellar activity and has the potential to be a superior technique for the management of POT. This study will investigate the effectiveness of MRI-guided bilateral cerebellar LIFUS stimulation for the treatment of POT and evaluate the underlying changes in brain circuits caused by the stimulation. Comparisons between symptoms and connectivity of brain circuits pre- and post-stimulation will be conducted to assess the effects of cerebellar LIFUS. The effects of real stimulation will also be compared to sham stimulation. This study is the first to apply LIFUS for neuromodulation in POT and will be critical in developing therapeutic LIFUS protocols.
In the current study the investigators aim to assess the effects of low intensity focused ultrasound (LIFUS) on the symptoms of primary orthostatic tremor (POT) and on brain connectivity. LIFUS is a promising non-invasive brain stimulation technique that is actively being studied for its ability to reversibly modulate brain activity. By focusing the propagation of acoustic wave through the skull, a higher degree of spatial specificity and deep targeting can be achieved over other non-invasive stimulation methods such as transcranial magnetic stimulation (TMS) and transcranial direct-current stimulation (tDCS). Specifically, investigators will use LIFUS to stimulate the cerebellum bilaterally for 80s per hemisphere using a theta burst protocol that investigators have shown to induce plasticity. Investigators hypothesize that modulating cerebellar activity will decrease symptoms of POT and normalize the dysfunctional cerebello-thalamo-cortico network. 15 POT patients will be recruited to participate in 3 sessions in-lab. The first visit will involve an anatomical magnetic resonance image (MRI) scan. This will allow us to accurately target cerebellar lobule VIII and establish the appropriate parameters of LIFUS to effectively pass through the skull. In visits 2 and 3 participants will be seated in a comfortable chair and an anatomical MRI image will be used to position the LIFUS transducer over cerebellar lobule VIII bilaterally on surface of their head. In visit 2, clinical assessments of POT will be conducted through electromyography (EMG) recordings and video analysis of posture and sway. Symptoms prior to and after LIFUS will be compared. Investigators will compare the effects of real stimulation to a sham stimulation. In visit 3, Investigators will assess brain network activity using transcranial magnetic stimulation (TMS) by employing an established paired-pulse paradigm. This method will allow us to establish the effects of LIFUS on the cerebello-thalamo-cortical network and determine how this related to changes observed in POT symptoms. ;
Status | Clinical Trial | Phase | |
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Recruiting |
NCT04844203 -
Prevalence of Orthostatic Tremor in Patients With Unsteadiness
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