A Review on Wearable Technologies for Tremor Suppression

Overview

Journal Front Neurol

Specialty Neurology

Date 2021 Aug 26

PMID 34434161

Citations 9

Authors

Julio S Lora-Millan

Gabriel Delgado-Oleas

Julian Benito-Leon

Eduardo Rocon

Affiliations

Soon will be listed here.

Abstract

Tremor is defined as a rhythmic, involuntary oscillatory movement of a body part. Although everyone exhibits a certain degree of tremor, some pathologies lead to very disabling tremors. These pathological tremors constitute the most prevalent movement disorder, and they imply severe difficulties in performing activities of daily living. Although tremors are currently managed through pharmacotherapy or surgery, these treatments present significant associated drawbacks: drugs often induce side effects and show decreased effectiveness over years of use, while surgery is a hazardous procedure for a very low percentage of eligible patients. In this context, recent research demonstrated the feasibility of managing upper limb tremors through wearable technologies that suppress tremors by modifying limb biomechanics or applying counteracting forces. Furthermore, recent experiments with transcutaneous afferent stimulation showed significant tremor attenuation. In this regard, this article reviews the devices developed following these tremor management paradigms, such as robotic exoskeletons, soft robotic exoskeletons, and transcutaneous neurostimulators. These works are presented, and their effectiveness is discussed. The article also evaluates the different metrics used for the validation of these devices and the lack of a standard validation procedure that allows the comparison among them.

Citing Articles

Designs of Upper Limb Tremor Suppression Orthoses: Efficacy and Wearer's Comfort.

ChiGan M, Chen M, Jing M J Med Device. 2025; 19(2):020801.

PMID: 39845265 PMC: 11748961. DOI: 10.1115/1.4066968.

Viscous damping of tremor using a wearable robot with an optimized mechanical metamaterial.

Raghavendra Kulkarni S, Accoto D, Campolo D Wearable Technol. 2025; 5():e20.

PMID: 39811474 PMC: 11729489. DOI: 10.1017/wtc.2024.15.

Shaking Up Essential Tremor: Peripheral Devices and Mechanical Strategies to Reduce Tremor.

Adabi K, Ondo W Tremor Other Hyperkinet Mov (N Y). 2024; 14:55.

PMID: 39553441 PMC: 11568799. DOI: 10.5334/tohm.930.

Upper limb intention tremor assessment: opportunities and challenges in wearable technology.

Paredes-Acuna N, Utpadel-Fischler D, Ding K, Thakor N, Cheng G J Neuroeng Rehabil. 2024; 21(1):8.

PMID: 38218890 PMC: 10787996. DOI: 10.1186/s12984-023-01302-9.

A modular, deep learning-based holistic intent sensing system tested with Parkinson's disease patients and controls.

Russell J, Inches J, Carroll C, Bergmann J Front Neurol. 2023; 14:1260445.

PMID: 38020624 PMC: 10646321. DOI: 10.3389/fneur.2023.1260445.

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