Exciting Recovery: Augmenting Practice with Stimulation to Optimize Outcomes After Spinal Cord Injury

Overview

Journal Prog Brain Res

Publisher Elsevier

Specialty Neurology

Date 2015 Apr 19

PMID 25890134

Citations 15

Authors

Edelle C Field-Fote

Affiliations

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Abstract

The discovery that the nervous system is plastic even in adulthood has been a great benefit to people with spinal cord injury (SCI) and other disorders of the central nervous system. Currently, practice and training provide the best opportunities to reverse the maladaptive plasticity associated with neuropathology and to promote adaptive plasticity that is supportive of function. Evidence suggests that several noninvasive, clinically accessible forms of stimulus energy, such as electrical, magnetic, and vibration stimuli may augment the effects of training. In essence, stimulation activates the same neural circuits that are activated by training, and when used in combination with training, stimulation has the potential to promote neuroplasticity beyond that achieved by practice or training alone. Studies involving neurologically healthy individuals have shown these approaches to enhance neural excitability and motor performance. Noninvasive, clinically available forms of stimulation may be used to modulate neural excitability as an adjuvant to programs designed to improve hand/arm function or to improve walking function in persons with neurological disorders. This chapter focuses on studies involving individuals with SCI and provides insights regarding how stimulation may be used to augment to training in this population.

Citing Articles

Challenges in Translating Regenerative Therapies for Spinal Cord Injury.

Stewart A, Gensel J, Jones L, Fouad K Top Spinal Cord Inj Rehabil. 2024; 29(Suppl):23-43.

PMID: 38174141 PMC: 10759906. DOI: 10.46292/sci23-00044S.

Assessment of Dorsiflexion Ability across Tasks in Persons with Subacute SCI after Combined Locomotor Training and Transcutaneous Spinal Stimulation.

Hope J, Field-Fote E Bioengineering (Basel). 2023; 10(5).

PMID: 37237598 PMC: 10215738. DOI: 10.3390/bioengineering10050528.

Chronic muscle recordings reveal recovery of forelimb function in spinal injured female rats after cortical epidural stimulation combined with rehabilitation and chondroitinase ABC.

Sinopoulou E, Barroso Spejo A, Roopnarine N, Burnside E, Bartus K, de Winter F J Neurosci Res. 2022; 100(11):2055-2076.

PMID: 35916483 PMC: 9544922. DOI: 10.1002/jnr.25111.

Transcutaneous spinal cord stimulation combined with locomotor training to improve walking ability in people with chronic spinal cord injury: study protocol for an international multi-centred double-blinded randomised sham-controlled trial (eWALK).

Bye E, Heroux M, Boswell-Ruys C, Perez M, Purcell M, Taylor J Spinal Cord. 2022; 60(6):491-497.

PMID: 35013547 DOI: 10.1038/s41393-021-00734-1.

Plasticity in Cervical Motor Circuits following Spinal Cord Injury and Rehabilitation.

Walker J, Detloff M Biology (Basel). 2021; 10(10).

PMID: 34681075 PMC: 8533179. DOI: 10.3390/biology10100976.