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Hydrogels as delivery systems for spinal cord injury regeneration

Deolinda Silva, Rui A. Sousa, António J. Salgado

2021Materials Today Bio62 citationsDOIOpen Access PDF

Abstract

Spinal cord injury is extremely debilitating, both at physiological and psychological levels, changing completely the patient's lifestyle. The introduction of biomaterials has opened a new window to develop a therapeutic approach to induce regeneration after injury due to similarities with extracellular matrix. Particularly, hydrogels have the ability to support axonal growth and endogenous regeneration. Moreover, they can also act as potential matrixes in which to load and deliver therapeutic agents at injury site. In this review, we highlight some important characteristics to be considered when designing hydrogels as delivery systems (DS), such as rheology, mesh size, swelling, degradation, gelation temperature and surface charge. Additionally, affinity-based release systems, incorporation of nanoparticles, or ion-mediated interactions are also pondered. Overall, hydrogel DS aim to promote a sustained, controlled and prolonged release at injury site, allowing a targeted oriented action of the therapeutic agent that will be used.

Topics & Concepts

Self-healing hydrogelsRegeneration (biology)Spinal cord injuryExtracellular matrixControlled releaseMaterials scienceSpinal cordNeuroscienceNanotechnologyCell biologyBiologyPolymer chemistrySpinal Cord Injury ResearchNerve injury and regenerationNeurogenetic and Muscular Disorders Research
Hydrogels as delivery systems for spinal cord injury regeneration | Litcius