Hyaluronic acid and chitosan based hydrogels for cartilage tissue engeneering

Tissue Engineering involves the development of new materials or devices capable of specific interactions with biological tissues, searching the use of biocompatible materials as scaffolds for cell growth in vitro, organizing and developing tissue that is subsequently implanted into the patient. A variety of scaffolds such as polymeric hydrogels, natural and synthetic, have been investigated for the expansion of chondrocytes in vitro in order to repair the damaged cartilage. A hydrogel of particular interest in cartilage regeneration is hyaluronic acid (HA). HA are attractive biopolymers for manufacturing artificial scaffolds for Tissue Engineering, it is biocompatible and biodegradable. The biocompatibility of HA is due to the fact that it is present in native extracellular matrix, thus creates an environment, which facilitates the adhesion, proliferation and differentiation, in addition to the existence of specific cell signaling, which contributes to tissue regeneration. The use of hydrogel composed of hyaluronic acid and chitosan (CHI) has also been investigated for applications in Tissue Engineering of soft tissues, like cartilage, with promising results. Based on this information, this study aims to investigate the alternatives available for cartilage tissue regeneration and meet more detail the relationships between cells and biomaterials.