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Enrolling By InvitationNCT06623721

Movement-activated Auricular Vagus Nerve Stimulation in Rehabilitation

Feasibility and Tolerance of Movement-activated Auricular Vagus Nerve Stimulation in Motor Rehabilitation

Status
Enrolling By Invitation
Phase
N/A
Study type
Interventional
Enrollment
10 (estimated)
Sponsor
Olivier Lambercy · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

Rehabilitation engineering laboratory (RELab) at the ETH Zurich is recruiting participants with a motor function deficit for studying a novel non-invasive brain stimulation method that may be a promising approach for benefiting motor recovery after conditions like stroke, traumatic brain injury or spinal cord injury. The study will be conducted at the cereneo Hertenstein clinic. Participants with residual motor function deficit due to stroke or spine/brain injury will be undergoing typical neurorehabilitation procedures in addition to the use of the automatically controlled non-invasive Vagus nerve stimulation (taVNS). This study will analyze the feasibility of this method before it can be used by doctors generally. More specifically, this study aims to test whether controlling taVNS with a wearable wrist-worn sensor during rehabilitation exercises for movement is both practical and safe. This stimulation works by involves sending tiny electric pulses to the outside of the ear after the wrist sensor detects movement. These pulses activate the auricular Vagus nerve and in turn the brain. Over the course of multiple rehabilitation procedures, taVNS may to help with the speed of motor recovery as shown with previous, manually controlled studies. The goal of this study is wants to see if the automatically controlled taVNSs method works well and doesn\'t cause any harm while people are doing their therapy exercises. If successful, in the future it could offer a new way to improve the recovery process movement for people with motor difficulties.

Detailed description

Transcutaneous auricular vagus nerve stimulation (taVNS) has emerged as a safe and medically approved non-invasive method for stimulating the vagus nerve, utilising a small electrode placed on the outer ear to transcutaneously activate an auricular branch of the vagus nerve. Studies indicate the potential benefits of both invasive and non-invasive vagus nerve stimulation for motor neurorehabilitation, particularly when combined with rehabilitation exercises. A recent pilot study has shown that pairing motor rehabilitation with taVNS in a movement-gated system resulted in improvement on Fugl-Meyer Assessment upper extremity scores and a greater effect size compared to an unpaired taVNS, while administering fewer stimulation pulses. This demonstrates that taVNS paired with movement therapy can reduce the intensity of stimulation, while still producing beneficial results. However, current approaches for performing stimulation during movement require either manual control or complex and non-specific sensor setup. There are no options for tracking and controlling stimulation based on movement kinematics in an objective, unsupervised manner. Therefore, an in-house developed taVNS system will be used (SmartVNS). The system includes inertial measurement unit (IMU) sensors to track patient's movement and then automatically initiates the taVNS stimulation during movements. The benefit for participants in the study involving transcutaneous auricular vagus nerve stimulation (taVNS) paired with rehabilitation exercises outweighs the potential risks. The intervention, taVNS, is a medically approved procedure with minimal and extremely rare adverse effects, particularly when used within approved parameters. The study protocol ensures that taVNS will be administered at safe and tolerable intensity levels, with immediate removal of electrodes if any discomfort occurs. Additionally, the intervention will not alter the typical rehabilitation program of the participants, and motion-triggered taVNS will be while participants perform repetitive rehabilitation exercise movements with the affected limb. The potential benefits of the study include contributing to the quality of future neurorehabilitation outcomes and informing decisions for protocols in future clinical studies to explore the efficacy of taVNS in enhancing neurorehabilitation and motor learning in adults with motor deficits. Overall, the study aims to prioritise participant safety while offering the potential for meaningful therapeutic benefits.

Conditions

Interventions

TypeNameDescription
DEVICEMovement-evoked transcutaneous auricular Vagus nerve stimulationIntervention requires wearing of an inertial measurement unit (IMU) sensor on an affected upper limb together with a transcutaneous auricular Vagus nerve (taVNS) stimulator on an outer ear on the contralateral side. Intervention involves IMU measurement-evoked initiation of taVNS during conventional neurorehabilitation therapy that is defined by the patient\'s doctor and therapist. Typically this is around 60 minutes/day of 50-300 repetitive upper limb movements targeting specific deficits such as flexor synergies and/or wrist, triceps or shoulder activation. taVNS intensity is calibrated at the start of every neurorehabilitation session by the patient to the maximal comfortable level with instructions to avoid pain or any serious discomfort. Patient is always accompanied by a therapist trained in the use of taVNS and the device is easy to immediately remove should any discomfort occur.

Timeline

Start date
2024-11-27
Primary completion
2025-10-03
Completion
2025-10-03
First posted
2024-10-02
Last updated
2024-11-29

Locations

1 site across 1 country: Switzerland

Source: ClinicalTrials.gov record NCT06623721. Inclusion in this directory is not an endorsement.