Available online 7 March 2023

Immunomodulatory biomaterials represent the next-generation dental pulp treatment.

M1 to M2 macrophage phenotype shift is vital for dental pulp healing/regeneration.

Biomaterials design is a crucial aspect of manipulating macrophage phenotype.

The current standard for treating irreversibly damaged dental pulp is root canal therapy, which involves complete removal and debridement of the pulp space and filling with an inert biomaterial. A regenerative approach to treating diseased dental pulp may allow for complete healing of the native tooth structure and enhance the long-term outcome of once-necrotic teeth. The aim of this paper is, therefore, to highlight the current state of dental pulp tissue engineering and immunomodulatory biomaterials properties, identifying exciting opportunities for their synergy in developing next-generation biomaterials-driven technologies.

An overview of the inflammatory process focusing on immune responses of the dental pulp, followed by periapical and periodontal tissue inflammation are elaborated. Then, the most recent advances in treating infection-induced inflammatory oral diseases, focusing on biocompatible materials with immunomodulatory properties are discussed. Of note, we highlight some of the most used modifications in biomaterials’ surface, or content/drug incorporation focused on immunomodulation based on an extensive literature search over the last decade.

We provide the readers with a critical summary of recent advances in immunomodulation related to pulpal, periapical, and periodontal diseases while bringing light to tissue engineering strategies focusing on healing and regenerating multiple tissue types.

Significant advances have been made in developing biomaterials that take advantage of the host’s immune system to guide a specific regenerative outcome. Biomaterials that efficiently and predictably modulate cells in the dental pulp complex hold significant clinical promise for improving standards of care compared to endodontic root canal therapy.

Biomaterials

Dental pulp

Immunomodulation

Regeneration

Tissue engineering

Tissue scaffolds

© 2023 The Academy of Dental Materials. Published by Elsevier Inc. All rights reserved.