Title:Multifunctional Therapeutic Delivery Strategies for Effective Neuro-Regeneration Following Traumatic Spinal Cord Injury
Volume: 21
Issue: 12
Author(s): Pradeep Kumar, Yahya E. Choonara, Girish Modi, Dinesh Naidoo and Viness Pillay
Affiliation:
Keywords:
Spinal cord injury, hydrogels, scaffolds, multiple channel bridges, nerve conduits, fibrous architectures, neurotrophic factors,
sustained release.
Abstract: Traumatic Spinal Cord Injuries (TSCI), due to their devastating nature, present several interventional challenges
(extensive inflammation, axonal tethering, scar formation, neuronal degeneration and functional loss) that need to be addressed
before even a slight neuronal recovery can be achieved. Recent post-TSCI investigational approaches include a combination
of “support and therapeutic” strategies capable of providing localized delivery of therapeutic molecules along with
specialized architecture to allow axonal growth and conformal repair. This review provides a brief overview of multifunctional
therapeutic delivery strategies for effective neuroregeneration post-TSCI with special emphasis on intrathecal hydrogel-based injectable
systems, chondroitinase ABC releasing matrices, micro/nano-sized particulate strategies, 3D-scaffold architectures, biopolymeric
channeled bridges for directed neuronal growth, functionalized nerve conduits, nano- and micro-fibrous scaffolds and multicomponent
combinatorial paradigms for localized delivery to spinal cord. In addition; a comprehensive account of most widely employed macromolecules
and the related neuro-pharmacological, -anatomical, and -functionaloutcomes conferred by the abovementioned neural tissue
engineering approaches is provided. Furthermore, the performance of individual delivery systems towards the enhancement of effectiveness,
efficiency, and stability of therapeutic molecules and neurotrophic factors is discussed. In conclusion, it is suggested that a multifunctional
combinatorial device assimilating the biomaterial, cellular, molecular, structural and functional aspects altogether is the best
way forward for effective neuroregeneration post-TSCI.
