Dual-Site Transcranial Magnetic Stimulation of the Supplementary Motor Area and Cerebellum for the Treatment of Essential Tremor.

Overview

Essential tremor is a common movement disorder that causes involuntary shaking, mainly during voluntary actions such as writing or holding objects. Recent research suggests that essential tremor is not caused by a single brain area, but by abnormal activity within a network that includes the cerebellum and motor areas of the brain. However, most non-invasive brain stimulation studies to date have targeted only one brain region and have shown inconsistent clinical benefits. This randomized, double-blind, placebo-controlled clinical trial aims to evaluate the effects of a dual-site transcranial magnetic stimulation (rTMS) protocol targeting the supplementary motor area (SMA) and the cerebellum in patients with essential tremor that does not respond adequately to standard medications. The study is based on previous pilot data showing meaningful tremor reduction using combined stimulation of these two brain regions. Participants will receive five sessions of rTMS, consisting of low-frequency stimulation over the SMA followed by high-frequency stimulation over the cerebellum. The main hypothesis is that this combined approach will lead to an immediate and sustained improvement in action tremor of the dominant upper limb, measured up to four weeks after treatment. Secondary outcomes include quality of life, safety, side effects, and changes in brain excitability associated with tremor improvement.

This study is a randomized, double-blind, placebo-controlled, parallel-group phase II clinical trial designed to investigate the effects of dual-site repetitive transcranial magnetic stimulation (rTMS) in patients with medication-refractory essential tremor. The trial is conducted at the University of São Paulo. Participants are randomized to receive either active or sham stimulation over five consecutive daily sessions. The active intervention consists of sequential stimulation of two interconnected nodes of the tremor network. Low-frequency rTMS (1 Hz, 110% of resting motor threshold) is first applied over the supplementary motor area in 24 trains with 3-second inter-train intervals, followed by high-frequency stimulation of the cerebellar cortex (10 Hz, 90% of resting motor threshold) delivered in 12 trains with 3-second inter-train intervals. The protocol is designed to modulate cortical motor drive and cerebellar output within the cerebello-thalamo-cortical circuit. The stimulation parameters and dual-site approach were selected based on neurophysiological and neuroimaging evidence supporting a network-based model of essential tremor, as well as on pilot data demonstrating clinically meaningful tremor reduction following combined stimulation of the supplementary motor area and cerebellum. Participants are evaluated at baseline, immediately after completion of the stimulation protocol, and during follow-up to assess clinical effects, safety, and neurophysiological changes associated with the intervention. This study aims to further characterize the therapeutic potential of network-targeted rTMS in essential tremor and to inform future neuromodulation strategies in this population.