Rehabilitative training improves skilled forelimb motor function after cervical unilateral contusion spinal cord injury in rats.
Behav Brain Res
; 422: 113731, 2022 03 26.
Article
em En
| MEDLINE
| ID: mdl-34979221
ABSTRACT
Animal models of cervical spinal cord injury (SCI) have frequently utilized partial transection injuries to evaluate plasticity promoting treatments such as rehabilitation training of skilled reaching and grasping tasks. Though highly useful for studying the effects of cutting specific spinal tracts that are important for skilled forelimb motor function, cervical partial-transection SCI-models underappreciate the extensive spread of most human SCIs, thus offering poor predictability for the clinical setting. Conversely, moderate cervical contusion SCI models targeting the spinal tracts important for skilled reaching and grasping can better replicate the increased size of most human SCIs and are often considered more clinically relevant. However, it is unknown whether animals with moderate cervical contusion SCIs that damage key spinal motor tracts can train in skilled reaching and grasping tasks. In this study, we quantify the impact of injury size and distribution on recovery in a skilled motor task called the single pellet reaching, grasping and retrieval (SPRGR) task in rats with cervical unilateral contusion injuries (UCs), and compare to rats with a partial transection SCIs (i.e., dorsolateral quadrant transection; DLQ). We found that UCs damage key tracts important for performing skilled motor tasks, similar to DLQs, but UCs also produce more extensive grey matter damage and more ventral white matter damage than DLQs. We also compared forelimb functionality at 1, 3, and 5 weeks of rehabilitative motor training between trained and untrained rats and found a more severe drop in SPRGR performance than in DLQ SCIs. Nevertheless, despite more severe injuries and initially low SPRGR performance, rehabilitative training for contusion animals resulted in significant improvements in SPRGR performance and proportionally more recovery than DLQ rats. Our findings show that rehabilitative motor training can facilitate considerable amounts of motor recovery despite extensive spinal cord damage, especially grey matter damage, thus supporting the use of contusion or compression SCI models and showing that ventral grey and white matter damage are not necessarily detrimental to recovery after training.
Palavras-chave
Corticospinal tract; Dorsolateral quadrant transection, DLQ; Forelimb motor task; Functional recovery; Grey matter loss; Neuroplasticity; Rehabilitative motor training; Rubrospinal tract; Single pellet reaching, grasping, and retrieving (SPRGR) task; Skilled motor task; Spinal cord injury; Spinal tract injury; Unilateral contusion, UC; White matter loss
Texto completo:
1
Base de dados:
MEDLINE
Assunto principal:
Condicionamento Físico Animal
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Traumatismos da Medula Espinal
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Terapia por Exercício
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Medula Cervical
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Reabilitação Neurológica
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Membro Anterior
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Destreza Motora
Idioma:
En
Ano de publicação:
2022
Tipo de documento:
Article