Wearable peripheral nerve stimulator reduces essential tremor symptoms through targeted brain modulation

Wearable peripheral nerve stimulator reduces essential tremor symptoms through targeted brain modulation

Background: Essential tremor (ET), the most common movement disorder in adults, presents with involuntary shaking of the upper extremities during postural hold and kinetic tasks linked to dysfunction in the cerebello-thalamo-cortical network. Recently, transcutaneous afferent patterned stimulation (...

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Bibliographic Details
Main Authors: Cuong P. Luu, Jordan Ranum, Youngwon Youn, Jennifer L. Perrault, Bryan M. Krause, Matthew I. Banks, Laura Buyan-Dent, Kip A. Ludwig, Wendell B. Lake, Aaron J. Suminski
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Brain Stimulation
Subjects:
TAPS
Transcutaneous afferent patterned stimulation
Human
Non-invasive
Neuromodulation
VIM
Online Access:http://www.sciencedirect.com/science/article/pii/S1935861X25002554
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Summary:Background: Essential tremor (ET), the most common movement disorder in adults, presents with involuntary shaking of the upper extremities during postural hold and kinetic tasks linked to dysfunction in the cerebello-thalamo-cortical network. Recently, transcutaneous afferent patterned stimulation (TAPS), applied through a wrist-worn device, has emerged as a non-invasive treatment for medication-refractory ET. However, its mechanism remains unclear. Objective: We hypothesize that TAPS reduces tremors through modulation of the VIM thalamus in the cerebello-thalamo-cortical network. Methods: Employing refractory pure ET patients seeking VIM deep brain stimulation (DBS), we quantified clinical tremor improvement following TAPS treatment in a pre-operative setting, followed by intra-operative microelectrode recording of the contralateral thalamus with concurrent TAPS treatment on and off. Results: After one preoperative session, TAPS significantly reduces upper limb tremor average (0.61, p = 0.002), with an asymmetric effect favoring the treated limb (p = 0.047) and the greatest improvement tending to kinetic tremor (R2 = 0.943, p = 0.002). The magnitude of TAPS-related tremor reduction demonstrates a positive correlation with the modulation of alpha (R2 = 0.213, p < 0.001) and beta band LFPs (R2 = 0.255, p < 0.001) in the VIM. TAPS also suppressed spiking activity in the VIM (R2 = 0.104, p = 0.029), though it was uncorrelated with the degree of tremor reduction. Of note, TAPS-related modulation of LFPs and spiking activity was greatest near the optimal placement location for the DBS lead in treating ET (R2 = 0.122, p = 0.006). Conclusion: In sum, TAPS likely reduces tremor in ET by modulating the VIM and connected nodes in the cerebello-thalamo-cortical pathway.
ISSN:1935-861X

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