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Interactions of Cells and Biomaterials for Nerve Tissue Engineering: Polymers and Fabrication

Meaghan E. Harley‐Troxell, Richard C. Steiner, Rigoberto C. Advíncula, David E. Anderson, Madhu Dhar

2023Polymers23 citationsDOIOpen Access PDF

Abstract

Neural injuries affect millions globally, significantly impacting their quality of life. The inability of these injuries to heal, limited ability to regenerate, and the lack of available treatments make regenerative medicine and tissue engineering a promising field of research for developing methods for nerve repair. This review evaluates the use of natural and synthetic polymers, and the fabrication methods applied that influence a cell's behavior. Methods include cross-linking hydrogels, incorporation of nanoparticles, and 3D printing with and without live cells. The endogenous cells within the injured area and any exogenous cells seeded on the polymer construct play a vital role in regulating healthy neural activity. This review evaluates the body's local and systemic reactions to the implanted materials. Although numerous variables are involved, many of these materials and methods have exhibited the potential to provide a biomaterial environment that promotes biocompatibility and the regeneration of a physical and functional nerve. Future studies may evaluate advanced methods for modifying material properties and characterizing the tissue-biomaterial interface for clinical applications.

Topics & Concepts

BiomaterialTissue engineeringBiocompatibilityRegeneration (biology)Self-healing hydrogelsRegenerative medicineNanotechnologyMaterials scienceBiomedical engineeringNeural tissue engineeringNatural polymersBiochemical engineeringPolymerCellMedicineChemistryEngineeringBiologyCell biologyPolymer chemistryComposite materialBiochemistryMetallurgyNerve injury and regenerationGraphene and Nanomaterials Applications3D Printing in Biomedical Research
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