As an Extracellular Matrix (ECM) component, Hyaluronic acid (HA) plays a multi-faceted role in cell migration, proliferation and differentiation at micro level and system level events such as tissue water homeostasis. Among its biological functions, it is known to interact with cytokines and contribute to their retention in ECM microenvironment. In addition to its biological functions, it has advantageous physical properties which result in the industrial endeavors in the synthesis and extraction of HA for variety of applications ranging from medical to cosmetic. Recently, HA and its derivatives have been the focus of active research for applications in biomedical device coatings, drug delivery systems and in the form of scaffolds or cell-laden hydrogels for tissue engineering. A specific reason for the increase in use of HA based structures is their immunomodulatory and regeneration inducing capacities. In this context, this article reviews recent literature on modulation of the implantable biomaterial microenvironment by systems based on HA and its derivatives, particularly hydrogels and microscale coatings that are able to deliver cytokines in order to reduce the adverse immune reactions and promote tissue healing.

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Inserm UMR 1121 11 rue Humann 67085 Strasbourg France Faculté de Chirurgie Dentaire Université de Strasbourg 3 rue Sainte Elisabeth 67000 Strasbourg France

Inserm UMR 1121 11 rue Humann 67085 Strasbourg France Faculté de Chirurgie Dentaire Université de Strasbourg 3 rue Sainte Elisabeth 67000 Strasbourg France Institut Charles Sadron CNRS UPR 22 23 rue du Lœss 67034 Strasbourg France

Inserm UMR 1121 11 rue Humann 67085 Strasbourg France Protip Medical 8 Place de l'Hôpital 67000 Strasbourg France

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