Current and future therapeutic strategies for functional repair of spinal cord injury

Abstract

Spinal cord injury (SCI) is one of the major disabilities dealt with in clinical rehabilitation settings and is multifactorial in that the patients suffer from motor and sensory impairments as well as many other complications throughout their lifetimes. Many clinical trials have been documented during the last two decades to restore damaged spinal cords. However, only a few pharmacological therapies used in clinical settings which still have only limited effects on the regeneration and functional recovery. This review presents recent clinical trials and recent advances in the development of strategies to restore locomotion after SCI. Several approaches toward functional recovery in SCI succeeded in acute and subacute phases in animal models. However, effective strategies against chronic phase of SCI have not been established yet. The strategy aiming to inhibit single molecule sometimes shows controversial results. In SCI, a lot of players participate in motor and sensory dysfunctions. Therefore, sufficient functional recovery may be achieved by regulating multiple targets. Regrowth of tracts connecting the brain and spinal cord, and axonal sprouting of propriospinal interneurons are fundamentally important for neuronal network working. In addition, remyelination, protection of neuronal death, inhibition of inflammation, and upregulation of beneficial influence of astrocytes are also quite crucial to supporting the axonal refining. Combination of several strategies might be useful as practical therapy. Several compounds such as a Sema3A inhibitor, estrogen, withanoside IV and their relating compounds or other neurotrophic factor-mimicking agents may be candidates for useful SCI therapeutic drugs since those have multi-effects on damaged spinal cord.