Three-dimensional scaffold-free periodontal ligament stem cell pellets for alveolar ridge preservation: an in vitro and in vivo study

Three-dimensional scaffold-free periodontal ligament stem cell pellets for alveolar ridge preservation: an in vitro and in vivo study

Abstract Objectives This study aimed to investigate the regenerative potential of a novel three-dimensional, scaffold-free human periodontal ligament stem cell-derived cell pellet (PDLSC-CP) for bone tissue regeneration and alveolar ridge preservation. The study evaluated the efficacy of PDLSC-CP in...

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Main Authors: Xiang Liang, Zhou Zhang, Siya Fang, Sadam Ahmed Elayah, Le Bai, Sina Ahmadi, Jin Liu, Fangfang Xu, Ying Han, Junbo Tu, Sijia Na
Format: Article
Language:English
Published: BMC 2025-07-01
Series:BMC Oral Health
Subjects:
Alveolar ridge preservation
Bone regeneration
Cell pellet
Extracellular matrix
Scaffold-free tissue
Periodontal ligament stem cells
Online Access:https://doi.org/10.1186/s12903-025-06495-0
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Summary:Abstract Objectives This study aimed to investigate the regenerative potential of a novel three-dimensional, scaffold-free human periodontal ligament stem cell-derived cell pellet (PDLSC-CP) for bone tissue regeneration and alveolar ridge preservation. The study evaluated the efficacy of PDLSC-CP in vitro and in vivo, comparing it with traditional cell sheets (PDLSC-CS). Methods PDLSCs were isolated from extracted premolars and characterized for their mesenchymal stem cell properties, including fibroblast-like morphology, colony-forming ability, multilineage differentiation potential, and specific surface marker expression. PDLSC-CP and PDLSC-CS were constructed and compared through histomorphological, immunofluorescence, real-time PCR, and western blot analyses. In vivo evaluations were performed using rat calvarial defect models and canine alveolar ridge preservation models, with micro-CT and histological analyses to assess bone regeneration and ridge preservation. Results PDLSC-CP demonstrated superior histomorphological characteristics, including higher cell density, richer extracellular matrix (ECM), and enhanced osteogenic potential compared to PDLSC-CS. In vitro analyses revealed significantly elevated expression of ECM proteins (fibronectin, collagen type I) and osteogenic markers in PDLSC-CP. In vivo evaluations confirmed its remarkable capacity for bone regeneration in rat calvarial defects and alveolar ridge preservation in canine models. Micro-CT and histological analyses showed that PDLSC-CP promoted extensive and dense new bone formation, with improved bone volume fraction, trabecular thickness, and mineralization. Conclusions The findings highlight the therapeutic potential of PDLSC-CP as a promising tool for bone tissue engineering and regenerative medicine. Its ability to enhance bone regeneration and alveolar ridge preservation underscores its clinical relevance. Graphical Abstract
ISSN:1472-6831

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