Review

. 2024 May 7;60(5):773.

doi: 10.3390/medicina60050773.

Insights and Advancements in Periodontal Tissue Engineering and Bone Regeneration

Angela Angjelova¹, Elena Jovanova¹, Alessandro Polizzi², Marco Annunziata³, Ludovica Laganà², Simona Santonocito², Gaetano Isola²

Affiliations

¹ University Dental Clinical Center St. Pantelejmon, Skopje, Faculty of Dentistry, Ss. Cyril and Methodius University in Skopje, 1000 Skopje, North Macedonia.
² Department of General Surgery and Surgical-Medical Specialties, School of Dentistry, University of Catania, 95124 Catania, Italy.
³ Multidisciplinary Department of Medical-Surgical and Dental Specialties, University of Campania Luigi Vanvitelli, Via L. De Crecchio, 6, 80138 Naples, Italy.

PMID: 38792956
PMCID: PMC11123221
DOI: 10.3390/medicina60050773

Review

Insights and Advancements in Periodontal Tissue Engineering and Bone Regeneration

Angela Angjelova et al. Medicina (Kaunas). 2024.

. 2024 May 7;60(5):773.

doi: 10.3390/medicina60050773.

Authors

Angela Angjelova¹, Elena Jovanova¹, Alessandro Polizzi², Marco Annunziata³, Ludovica Laganà², Simona Santonocito², Gaetano Isola²

Affiliations

¹ University Dental Clinical Center St. Pantelejmon, Skopje, Faculty of Dentistry, Ss. Cyril and Methodius University in Skopje, 1000 Skopje, North Macedonia.
² Department of General Surgery and Surgical-Medical Specialties, School of Dentistry, University of Catania, 95124 Catania, Italy.
³ Multidisciplinary Department of Medical-Surgical and Dental Specialties, University of Campania Luigi Vanvitelli, Via L. De Crecchio, 6, 80138 Naples, Italy.

PMID: 38792956
PMCID: PMC11123221
DOI: 10.3390/medicina60050773

Abstract

The regeneration of periodontal bone defects continues to be an essential therapeutic concern in dental biomaterials. Numerous biomaterials have been utilized in this sector so far. However, the immune response and vascularity in defect regions may be disregarded when evaluating the effectiveness of biomaterials for bone repair. Among several regenerative treatments, the most recent technique of in situ tissue engineering stands out for its ability to replicate endogenous restorative processes by combining scaffold with particular growth factors. Regenerative medicine solutions that combine biomaterials/scaffolds, cells, and bioactive substances have attracted significant interest, particularly for bone repair and regeneration. Dental stem cells (DSCs) share the same progenitor and immunomodulatory properties as other types of MSCs, and because they are easily isolable, they are regarded as desirable therapeutic agents in regenerative dentistry. Recent research has demonstrated that DSCs sown on newly designed synthetic bio-material scaffolds preserve their proliferative capacity while exhibiting increased differentiation and immuno-suppressive capabilities. As researchers discovered how short peptide sequences modify the adhesion and proliferative capacities of scaffolds by activating or inhibiting conventional osteogenic pathways, the scaffolds became more effective at priming MSCs. In this review, the many components of tissue engineering applied to bone engineering will be examined, and the impact of biomaterials on periodontal regeneration and bone cellular biology/molecular genetics will be addressed and updated.

Keywords: biomaterials; bone regeneration; dentistry; growth factors; periodontal regeneration; periodontitis; stem cell therapy; tissue engineering.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

**Figure 1**
Schematic illustration of lymphocytes, neutrophils, osteoblasts, macrophages, osteoclasts, and proinflammatory cytokines identified in the process of bone resorption. Created by BioRender.com.

**Figure 2**
Schematic illustration of the anatomy of periodontal tissues, periodontal defect, scaffolds of tissue engineering, and drug delivery system. Created by BioRender.com.

**Figure 3**
Schematic image of human DSCs. Abbreviations: DFPCs—dental follicle progenitor cells; PDLSCs—periodontal ligament stem cells; SCAP—stem cells from apical papilla; DPSCs—dental pulp stem cells; SHED—stem cells from exfoliated deciduous teeth. Created by BioRender.com.

See this image and copyright information in PMC

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Insights and Advancements in Periodontal Tissue Engineering and Bone Regeneration

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Insights and Advancements in Periodontal Tissue Engineering and Bone Regeneration

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