Clinical applications of electrical stimulation for peripheral nerve injury: a systematic review

Peripheral nerve injuries are common neurologic injuries that are challenging to treat with current therapies. Electrical stimulation has been shown to accelerate reinnervation and enhance functional recovery. This study aims to review the literature on clinical application of electrical stimulation...

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Bibliographic Details
Published in:Frontiers in neuroscience 2023-08, Vol.17, p.1162851-1162851
Main Authors: Costello, Meredith C., Errante, Emily L., Smartz, Taylor, Ray, Wilson Z., Levi, Allan D., Burks, Stephen Shelby
Format: Article
Language:English
Subjects:
Clavicle
clinical application
Clinical trials
electrical stimulation
Electrical stimuli
Electrophysiology
Injuries
Kinases
Neuroscience
Patients
peripheral nerve injury
Peripheral nerves
recovery
Recovery of function
Reinnervation
Systematic review
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Summary:Peripheral nerve injuries are common neurologic injuries that are challenging to treat with current therapies. Electrical stimulation has been shown to accelerate reinnervation and enhance functional recovery. This study aims to review the literature on clinical application of electrical stimulation for peripheral nerve injury. PubMed and Embase were sourced from 1995 to August 2022. Selection was based on predetermined inclusion/exclusion criteria. Eight hundred and thirty-five articles were screened with seven being included in this review. Two hundred and twenty-nine patients with peripheral nerve injuries were represented. Six of the studies were randomized controlled trials. A variety of nerve injuries were represented with all being in the upper extremity and supraclavicular region. Electrical stimulation protocols and evaluation varied. Electrodes were implanted in four studies with one also implanting the stimulator. Length of stimulation per session was either 20 minutes or one hour. Median stimulation frequency was 20 Hz. Stimulation intensity varied from 3V – 30V; pulse width ranged from 0.1 – 1.007 ms. Three protocols were conducted immediately after surgery. Patients were followed for an average of 13.5 months and were evaluated using electrophysiology and combinations of motor, sensory, and functional criteria. Patients who received electrical stimulation consistently demonstrated better recovery compared to their respective controls. Electrical stimulation for peripheral nerve injury is a novel treatment that has not been well-studied in humans. Our review illustrates the potential benefit in implementing this approach into everyday practice. Future research should aim to optimize protocol for clinical use.
ISSN:1662-453X
1662-4548
1662-453X
DOI:10.3389/fnins.2023.1162851