Journal article
Linking spinal circuit reorganization to recovery after thoracic spinal cord injury
eLife, v 14, 107480
17 Feb 2026
Abstract
Rats exhibit significant recovery of locomotor function following incomplete spinal cord injuries, albeit with altered gait expression and reduced speed and stepping frequency. These changes likely result from and give insight into the reorganization within spared and injured spinal circuitry. Previously, we developed computational models of the mouse spinal locomotor circuitry controlling speed-dependent gait expression (Danner et al., 2017; Zhang et al., 2022). Here, we adapted these models to the rat and used the adapted model to explore potential circuit-level changes underlying altered gait expression observed after recovery from two different thoracic spinal cord injuries (lateral hemisection and contusion) that have roughly comparable levels of locomotor recovery (Danner et al., 2023). The model reproduced experimentally observed gait expression before injury and after recovery from lateral hemisection and contusion and suggests two distinct, injury-specific routes to restored function. First, recovery after lateral hemisection required substantial functional restoration of damaged descending drive and long propriospinal connections, suggesting compensatory plasticity through formation of detour pathways. Second, recovery after a moderate midline contusion predominantly relied on reorganization of spared sublesional networks and altered control of supralesional cervical circuits, compensating for weakened propriospinal and descending pathways. Despite these differences, sensitivity analysis revealed that restored activation of sublesional lumbar rhythm-generating circuits and appropriately balanced lumbar commissural connectivity are the key determinants of post-injury gait expression, suggesting that injury symmetry shapes how the cord reorganizes, but effective recovery in both cases depends on re-engaging these lumbar networks, which makes them prime targets for therapeutic intervention.
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Details
- Title
- Linking spinal circuit reorganization to recovery after thoracic spinal cord injury
- Creators
- Natalia A. Shevtsova - Drexel UniversityAndrew B. Lockhart - Drexel UniversityIlya A. Rybak - Drexel UniversityDavid S. K. Magnuson - University of LouisvilleSimon M. Danner (Corresponding Author) - Drexel University
- Publication Details
- eLife, v 14, 107480
- Publisher
- eLife Sciences Publications
- Number of pages
- 36
- Grant note
- R01 NS112304 / National Institutes of Health; United States Department of Health & Human Services; National Institutes of Health (NIH) - USA Kentucky Spinal Cord Injury Research Trust
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Neurobiology and Anatomy
- Web of Science ID
- WOS:001693418700001
- Other Identifier
- 991022166394404721