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Advances in molecular therapies for targeting pathophysiology in spinal cord injury

Ha Neui Kim, Madeline McCrea, Shuxin Li

2023Expert Opinion on Therapeutic Targets24 citationsDOIOpen Access PDF

Abstract

INTRODUCTION: Spinal cord injury (SCI) affects 25,000-50,000 people around the world each year and there is no cure for SCI patients currently. The primary injury damages spinal cord tissues and secondary injury mechanisms, including ischemia, apoptosis, inflammation, and astrogliosis, further exacerbate the lesions to the spinal cord. Recently, researchers have designed various therapeutic approaches for SCI by targeting its major cellular or molecular pathophysiology. AREAS COVERED: Some strategies have shown promise in repairing injured spinal cord for functional recoveries, such as administering neuroprotective reagents, targeting specific genes to promote robust axon regeneration of disconnected spinal fiber tracts, targeting epigenetic factors to enhance cell survival and neural repair, and facilitating neuronal relay pathways and neuroplasticity for restoration of function after SCI. This review focuses on the major advances in preclinical molecular therapies for SCI reported in recent years. EXPERT OPINION: Recent progress in developing novel and effective repairing strategies for SCI is encouraging, but many challenges remain for future design of effective treatments, including developing highly effective neuroprotectants for early interventions, stimulating robust neuronal regeneration with functional synaptic reconnections among disconnected neurons, maximizing the recovery of lost neural functions with combination strategies, and translating the most promising therapies into human use.

Topics & Concepts

AstrogliosisSpinal cord injuryMedicineNeuroscienceNeuroprotectionSpinal cordRegeneration (biology)Central nervous systemPharmacologyBiologyCell biologyNerve injury and regenerationSpinal Cord Injury ResearchNeurogenetic and Muscular Disorders Research
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