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Review
. 2021 Dec 30;10(1):71.
doi: 10.3390/biomedicines10010071.

Materials for Dentoalveolar Bioprinting: Current State of the Art

Mehdi Salar Amoli  1   2 Mostafa EzEldeen  2   3 Reinhilde Jacobs  2   4 Veerle Bloemen  1   5
Affiliations
Review

Materials for Dentoalveolar Bioprinting: Current State of the Art

Mehdi Salar Amoli et al. Biomedicines. .

Abstract

Although current treatments can successfully address a wide range of complications in the dentoalveolar region, they often still suffer from drawbacks and limitations, resulting in sub-optimal treatments for specific problems. In recent decades, significant progress has been made in the field of tissue engineering, aiming at restoring damaged tissues via a regenerative approach. Yet, the translation into a clinical product is still challenging. Novel technologies such as bioprinting have been developed to solve some of the shortcomings faced in traditional tissue engineering approaches. Using automated bioprinting techniques allows for precise placement of cells and biological molecules and for geometrical patient-specific design of produced biological scaffolds. Recently, bioprinting has also been introduced into the field of dentoalveolar tissue engineering. However, the choice of a suitable material to encapsulate cells in the development of so-called bioinks for bioprinting dentoalveolar tissues is still a challenge, considering the heterogeneity of these tissues and the range of properties they possess. This review, therefore, aims to provide an overview of the current state of the art by discussing the progress of the research on materials used for dentoalveolar bioprinting, highlighting the advantages and shortcomings of current approaches and considering opportunities for further research.

Keywords: alveolar bone; bioink; hydrogel; periodontal ligament; pulp-dentin.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

Figure 1
Figure 1
An overview of a tissue engineering process highlighting bioprinting as a promising fabrication technique.
Figure 2
Figure 2
Most widespread bioprinting technologies are (a) extrusion-based bioprinting (b) inkjet bioprinting, and (c) laser-based bioprinting.
See this image and copyright information in PMC

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