Effects of mechanical loading on matrix homeostasis and differentiation potential of periodontal ligament cells: A scoping review

Author:

Pakpahan Novena Dameria12,Kyawsoewin Maythwe12,Manokawinchoke Jeeranan12,Termkwancharoen Chutimon12,Egusa Hiroshi34ORCID,Limraksasin Phoonsuk123ORCID,Osathanon Thanaphum12

Affiliation:

1. Center of Excellence for Dental Stem Cell Biology and Department of Anatomy, Faculty of Dentistry Chulalongkorn University Bangkok Thailand

2. Center of Excellence for Regenerative Dentistry Chulalongkorn University Bangkok Thailand

3. Division of Molecular and Regenerative Prosthodontics Tohoku University Graduate School of Dentistry Sendai Miyagi Japan

4. Center for Advanced Stem Cell and Regenerative Research Tohoku University Graduate School of Dentistry Sendai Miyagi Japan

Abstract

AbstractVarious mechanical loadings, including mechanical stress, orthodontics forces, and masticatory force, affect the functions of periodontal ligament cells. Regulation of periodontal tissue destruction, formation, and differentiation functions are crucial processes for periodontal regeneration therapy. Numerous studies have reported that different types of mechanical loading play a role in maintaining periodontal tissue matrix homeostasis, and osteogenic differentiation of the periodontal ligament cells. This scoping review aims to evaluate the studies regarding the effects of various mechanical loadings on the secretion of extracellular matrix (ECM) components, regulation of the balance between formation and destruction of periodontal tissue matrix, osteogenic differentiation, and multiple differentiation functions of the periodontal ligament. An electronic search for this review has been conducted on two databases; MEDLINE via PubMed and SCOPUS. Study selection criteria included original research written in English that reported the effects of different mechanical loadings on matrix homeostasis and differentiation potential of periodontal ligament cells. The final 204 articles were mainly included in the present scoping review. Mechanical forces of the appropriate magnitude, duration, and pattern have a positive influence on the secretion of ECM components such as collagen, as well as regulate the secretion of matrix metalloproteinases and tissue inhibitors of matrix metalloproteinases. Additionally, these forces regulate a balance between osteoblastic and osteoclast differentiation. Conversely, incorrect mechanical loadings can lead to abnormal formation and destruction of both soft and hard tissue. This review provides additional insight into how mechanical loadings impact ECM homeostasis and multiple differentiation functions of periodontal ligament cells (PDLCs), thus making it valuable for regenerative periodontal treatment. In combination with advancing technologies, the utilization of ECM components, application of different aspects of mechanical force, and differentiation potential of PDLCs could bring potential benefits to future periodontal regeneration therapy.

Publisher

Wiley

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