Sensorimotor behaviour in rats after lesions of dorsal spinal pathways
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Date
2008
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ORCID
Type
Degree Level
Doctoral
Abstract
To investigate the roles of different dorsal spinal pathways in controlling movements in rats, I performed lesions of specific spinal pathways and measured the behaviour abilities of rats using different sensorimotor behavioural tests. The first experiment was designed to understand the contribution of sensory pathways traveling in the dorsal funiculus during locomotion and skilled movements using sensitive behavioural tests. I demonstrated that ascending sensory fibers play an important role during overground locomotion and contribute to skilled forelimb movements. The second experiment compared the differences in sensorimotor abilities caused by dorsal funicular lesions performed at two different levels of rat spinal cord. My results showed that the pathways present in the cervical and thoracic dorsal funiculus exert different functional effects over control of limb movement during locomotion. The third experiment investigated the compensatory potential of dorsal funicular pathways after dorsolateral funicular injuries in rats. My results showed that dorsal funicular pathways do not compensate for loss of dorsolateral pathways during the execution of locomotor tasks, though there is indirect evidence that rats with dorsolateral funicular lesions might rely more on ascending sensory pathways in the dorsolateral funiculus during skilled forelimb movements. Finally, the fourth experiment was designed to investigate the compensation from dorsolateral funicular pathways after injuries to pyramidal tract in rats. I demonstrated that pathways running in the spinal dorsolateral funiculus do provide compensatory input to spinal circuitry to maintain skilled reaching abilities after lesions of the pyramidal tract but these same pathways do not appear to compensate during either overground locomotion or skilled locomotion. Thus, this compensatory response is task-specific. These results highlight the fact that behavioural context determines the nature of compensation from spared pathways after spinal cord injuries.
Description
Keywords
Skilled forepaw usage, rat models for partial spinal cord injury, Task specific compensation, Compensation, Dorsolateral funiculus, Rubrospinal tract, Deficits, Dorsal funiculus, Single pellet reaching, Ascending sensory pathways, Corticospinal tract, Pyramidal tract, Rats, Spinal cord injury, Behaviour, Dorsal spinal pathways, Ground reaction forces, Overground locomotion, Horizontal ladder, Skilled locomotion
Citation
Degree
Doctor of Philosophy (Ph.D.)
Department
Veterinary Biomedical Sciences
Program
Veterinary Biomedical Sciences