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Hollis Lab Demonstrates Functional Rewiring with Nerve Stimulation in Chronic SCI Model

PUBLICATION: 
Journal Article
Authors: 
Juan Sebastián Jara, Marwa A. Soliman, Amanda Bernstein, Paola di Grazia, Adam R. Ferguson, Justin M. Brown, Abel Torres-Espín, and Edmund R. Hollis
Year Published: 
2025
Publisher: 
Brain Sci. 2025, 15(3), 251
Conditioning Electrical Nerve Stimulation Enhances Functional Rewiring in a Mouse Model of Nerve Transfer to Treat Chronic Spina

Abstract

Background/Objectives: Nerve transfer surgery is a state-of-the-art surgical approach to restore hand and arm function in individuals living with tetraplegia, significantly impacting daily life. While nearly a third of all individuals with chronic spinal cord injury may benefit from this intervention, variability in outcomes can limit the functional impact. A bedside to bench approach was taken to address the variable response of tetraplegic individuals to nerve transfer surgery. Methods: We used a hierarchical multiple factor analysis to evaluate the effects of conditioning electrical stimulation (CES) on outcomes in a mouse model of nerve transfer to treat chronic cervical spinal cord injury. Results: We found that CES of donor nerves one week prior to nerve transfer surgery enhanced anatomical and functional measures of innervation of targeted muscles. Furthermore, CES increased the rate of recovery of naturalistic behavior. Conclusions: While the model has some limitations due to the small size of the rodent, our results support the use of CES as an effective approach to improve outcomes in clinical nerve repair settings.

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