Fibrillin protein, a candidate for creating a suitable scaffold in PDL regeneration while avoiding ankylosis

Summary The tooth is stabilized by fiber‐rich tissue called the periodontal ligament (PDL). The narrow space of the PDL does not calcify in the physiological state even thought it exists between two calcified tissues, namely, the cementum of the root and alveolar bone. Two situations that require PD...

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Bibliographic Details
Published in:Genesis (New York, N.Y. : 2000) N.Y. : 2000), 2022-09, Vol.60 (8-9), p.e23486-n/a
Main Author: Oka, Kyoko
Format: Article
Language:English
Subjects:
Alveolar bone
Ankylosis
Bone growth
Bone healing
Cementum
elastic system fibers
Epithelial cells
Epithelium
Fibers
Fibrillin
Gum disease
Microfibrils
Osteogenesis
Oxytalan fibers
Periodontal ligament
Periodontitis
Regeneration
replantation
Root development
Sheaths
Teeth
TGF‐β
tooth avulsion
Trauma
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Summary:Summary The tooth is stabilized by fiber‐rich tissue called the periodontal ligament (PDL). The narrow space of the PDL does not calcify in the physiological state even thought it exists between two calcified tissues, namely, the cementum of the root and alveolar bone. Two situations that require PDL regeneration are periodontitis and dental trauma. Periodontitis induces the loss of PDL and alveolar bone due to inflammation related to infection. Conversely, in PDLs damaged by dental trauma, accelerating bone formation as an overreaction of the healing process is induced, thereby inducing dentoalveolar ankylosis at the tooth root surface. PDL regeneration following dental trauma must therefore be considered separately from periodontitis. Therefore, PDL regeneration in dental trauma must be considered separately from periodontitis. This review focuses on the components involved in avoiding dentoalveolar ankylosis, including oxytalan fibers, aggregated microfibrils, epithelial cell rests of Malassez (ERM), and TGF‐β signaling. During root development, oxytalan fibers produced by PDL cells work in collaboration with the epithelial components in the PDL (e.g., Hertwig's root sheath [HERS] and ERM). We herein describe the functions of oxytalan fibers, ERM, and TGF‐β signals which are involved in the avoidance of bone formation.
ISSN:1526-954X
1526-968X
DOI:10.1002/dvg.23486