Stimulation of the cuneiform nucleus enables training and boosts recovery after spinal cord injury
Autor: | Hofer, Anna-Sophie, Scheuber, Myriam I, Sartori, Andrea M, Good, Nicolas, Stalder, Stephanie A, Hammer, Nicole, Fricke, Kai, Schalbetter, Sina M, Engmann, Anne K, Weber, Rebecca Zoe, Rust, Ruslan, Schneider, Marc P, Russi, Natalie, Favre, Giacomin, Schwab, Martin E |
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Přispěvatelé: | University of Zurich |
Rok vydání: | 2022 |
Předmět: |
Midbrain Reticular Formation
rehabilitative training mesencephalic locomotor region 610 Medicine & health 11359 Institute for Regenerative Medicine (IREM) Recovery of Function spinal cord injury deep brain stimulation cuneiform nucleus Rats Spinal Cord Rats Inbred Lew Animals Female Neurology (clinical) Spinal Cord Injuries Locomotion Brain Stem |
Zdroj: | Brain: A Journal of Neurology, 145 (10) |
ISSN: | 1460-2156 0006-8950 |
Popis: | Severe spinal cord injuries result in permanent paraparesis in spite of the frequent sparing of small portions of white matter. Spared fibre tracts are often incapable of maintaining and modulating the activity of lower spinal motor centres. Effects of rehabilitative training thus remain limited. Here, we activated spared descending brainstem fibres by electrical deep brain stimulation of the cuneiform nucleus of the mesencephalic locomotor region, the main control centre for locomotion in the brainstem, in adult female Lewis rats. We show that deep brain stimulation of the cuneiform nucleus enhances the weak remaining motor drive in highly paraparetic rats with severe, incomplete spinal cord injuries and enables high-intensity locomotor training. Stimulation of the cuneiform nucleus during rehabilitative aquatraining after subchronic (n = 8 stimulated versus n = 7 unstimulated versus n = 7 untrained rats) and chronic (n = 14 stimulated versus n = 9 unstimulated versus n = 9 untrained rats) spinal cord injury re-established substantial locomotion and improved long-term recovery of motor function. We additionally identified a safety window of stimulation parameters ensuring context-specific locomotor control in intact rats (n = 18) and illustrate the importance of timing of treatment initiation after spinal cord injury (n = 14). This study highlights stimulation of the cuneiform nucleus as a highly promising therapeutic strategy to enhance motor recovery after subchronic and chronic incomplete spinal cord injury with direct clinical applicability. Brain: A Journal of Neurology, 145 (10) ISSN:0006-8950 ISSN:1460-2156 |
Databáze: | OpenAIRE |
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