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Not Yet RecruitingNCT07531238

Transcranial Temporal Interference Stimulation (tTIS) To Modulate Essential Tremor

Transcranial Temporal Interference Stimulation (tTIS) To Modulate Essential Tremor: A Single-Center, Proof-of-Concept Study (TremorTIS (Pilot))

Status
Not Yet Recruiting
Phase
N/A
Study type
Interventional
Enrollment
6 (estimated)
Sponsor
Vanessa Fleury · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

The goal of this proof-of-concept study is to examine the effects of a relatively new, non-invasive electrical current-based technique, transcranial temporal interference stimulation (tTIS), in patients with Essential Tremor (ET). TTIS is delivered via a Digitimer Ltd. stimulator, the "DS5 Isolated Bipolar Constant Current Stimulator." The method enables targeting deep cerebral structures to selectively modulate neurons. The structure of interest in the present study is the ventralis intermedius (VIM) of the thalamus, which plays a key role in tremor generation in people with essential tremor. Therefore, techniques targeting the VIM nucleus can potentially improve the tremor and the quality of life in the long term, as is the case with MRI-guided high-intensity focused ultrasound (MRgHIFU). Despite its efficiency, MRgHIFU can lead to side effects that could benefit from improved predictive modeling. In our proof-of-concept study, we aim to examine whether tTIS of the VIM nucleus can alter tremor characteristics and, therefore, mimic the effects of MRgHIFU. This work would pave the way for future clinical trials to design prediction tools for MRgHIFU, if we can demonstrate the positive impact of tTIS.

Detailed description

Essential tremor (ET) represents one of the most common movement disorders worldwide, with an estimated prevalence of 1 % across all ages, increasing with age. Despite being considered a benign disease, it can nevertheless lead to significant functional impairment. Several drugs, such as beta-blockers, can be used to alleviate the tremor, but they may not be enough to improve the quality of life, and they can cause significant side effects. The etiology and pathophysiology of ET are not yet fully understood. One pathophysiological hypothesis for ET is a deficiency in cerebellar GABAergic transmission, leading to abnormal oscillatory activity that interferes with motor function. This abnormal oscillatory activity converges on the thalamus, specifically in the ventralis intermedius (VIM) nucleus. Various surgical or disruptive medical techniques can target this nucleus in case of a drug-resistant tremor or drug intolerance. One such technique is MRI-guided, high-intensity focused ultrasound thalamotomy (MRgHIFU), which results in a long-lasting, significant reduction of tremor in most cases. Despite the MRgHIFU's millimetric precision, the VIM is not directly visible on peri-operative MRI scans. MRgHIFU thalamotomy can also lead to side effects, such as modifications of sensations (paresthesia), speech difficulties (dysarthria), imbalance (ataxia), or even motor deficits (hemiparesis). Therefore, more accurate tools are needed to predict the effects of MRgHIFU. One promising technique that could help clinicians predict the effects of MRgHIFU is transcranial temporal interference stimulation. This non-invasive neuromodulation technique uses two pairs of scalp electrodes, which deliver two slightly different high-frequency currents (e.g., f1 = 2.00 kHz; f2 = 2.01 kHz). Frequencies in the kHz range are too high to induce an effect on neurons and nerves. Still, due to their difference Δf = f2-f1, they both interfere in the depth of the brain to create a so-called amplitude-modulated envelope with a beat frequency falling in the physiological range (e.g., Δf = 10 Hz). This allows neuromodulation of deep structures-the VIM in this study-and avoids stimulation of the cortical structures at the same time. We will use the Digitimer Ltd. "DS5 Isolated Bipolar Constant Current Stimulator" to deliver tTIS. The goal of the proposed proof-of-concept study is to examine the effects of tTIS on tremor modulation in essential tremor patients who are candidates for MRgHIFU thermoablation of the VIM, and to compare the impact of tTIS with the "true" effect of tremor reduction after MRgHIFU. The primary outcome will be the change in tremor amplitude (in mm), as measured by Inertial Measurement Units (IMUs) comprising an accelerometer, a gyroscope, and a magnetometer. The secondary outcomes will be other quantitative tremor parameters, such as the frequency, angular and linear acceleration, and power, as well as safety outcomes.

Conditions

Interventions

TypeNameDescription
DEVICETranscranial temporal interference stimulationWe will deliver transcranial temporal interference stimulation (tTIS) via the DS5 stimulator (Digitimer Ltd.) in patients with essential tremor who are candidates for MRgHIFU to examine its ability to modulate the tremor amplitude.
OTHERTremor monitoring through Inertial Measurement Units (IMUs)Essential tremor patients candidates for MRgFUS, whether undergoing the tTIS protocol (experimental arm) or acting as controls (control arm), will undergo a tremor quantification through Inertial Measurement Units (IMUs) before, during, and after the stimulation (for the experimental arm), as well as before and after MRgHIFU (both arms).

Timeline

Start date
2026-04-28
Primary completion
2026-07-30
Completion
2026-08-01
First posted
2026-04-15
Last updated
2026-04-15

Locations

1 site across 1 country: Switzerland

Source: ClinicalTrials.gov record NCT07531238. Inclusion in this directory is not an endorsement.