Litcius/Paper detail

Unveiling the potential of biomaterials and their synergistic fusion in tissue engineering

Eva Sanchez Armengol, Nathalie Hock, Sila Saribal, Dennis To, Simona Summonte, Florina Veider, Gergely Kali, Andreas Bernkop‐Schnürch, Flavia Laffleur

2024European Journal of Pharmaceutical Sciences25 citationsDOIOpen Access PDF

Abstract

Inspired by nature, tissue engineering aims to employ intricate mechanisms for advanced clinical interventions, unlocking inherent biological potential and propelling medical breakthroughs. Therefore, medical, and pharmaceutical fields are growing interest in tissue and organ replacement, repair, and regeneration by this technology. Three primary mechanisms are currently used in tissue engineering: transplantation of cells (I), injection of growth factors (II) and cellular seeding in scaffolds (III). However, to develop scaffolds presenting highest potential, reinforcement with polymeric materials is growing interest. For instance, natural and synthetic polymers can be used. Regardless, chitosan and keratin are two biopolymers presenting great biocompatibility, biodegradability and non-antigenic properties for tissue engineering purposes offering restoration and revitalization. Therefore, combination of chitosan and keratin has been studied and results exhibit highly porous scaffolds providing optimal environment for tissue cultivation. This review aims to give an historical as well as current overview of tissue engineering, presenting mechanisms used and polymers involved in the field.

Topics & Concepts

Tissue engineeringBiocompatibilityScaffoldRegeneration (biology)Regenerative medicineChitosanNanotechnologyBiochemical engineeringBiomedical engineeringMaterials scienceChemistryStem cellEngineeringBiologyCell biologyMetallurgyBiochemistrySilk-based biomaterials and applicationsDyeing and Modifying Textile FibersElectrospun Nanofibers in Biomedical Applications