Abstract
Currently, much interest in neuro-rehabilitation is focused on mechanisms related to axonal outgrowth and formation of new circuits although still little is known about the functionality in motor behavior. This is a highly exciting avenue of research and most important to consider when dealing with large lesions. Here, we address endogenous mechanisms with the potential of modifying the function of already existing spinal circuits via associative plasticity. We forward a hypothesis based on experimental findings suggesting that potentiation of synaptic transmission in un-injured pathways can be monitored and adjusted by a Cerebellar loop involving the Reticulospinal, Rubrospinal and Corticospinal tracts and spinal interneurons with projection to motoneurons. This mechanism could be of relevance when lesions are less extensive and the integrity of the neural circuits remains in part. Endogenous plasticity in the spinal cord could be of clinical importance if stimulated in an adequate manner, e.g., by using optimal training protocols.
Highlights
A major problem following injuries in the CNS is poor recovery of sensorimotor control leaving the subject substantially handicapped for the remaining life
We propose a hypothesis for potentiation of transmission in un-injured pathways and which involves spinal interneuronal networks, descending brainstem systems and the Cerebellum
Selective spinal cord lesions were made to delineate the different spinal interneuronal systems mediating the command for these movements to forelimb motoneurones and to investigate the control from different descending pathways
Summary
A major problem following injuries in the CNS is poor recovery of sensorimotor control leaving the subject substantially handicapped for the remaining life. Behavioral experiments in the cat and monkey showed that reaching and grasping can be controlled via interneuronal circuits in the cervical spinal cord (Alstermark et al, 1981b, 2011; Sasaki et al, 2004).
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