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A computer-designed scaffold for bone regeneration within cranial defect using human dental pulp stem cells.


ABSTRACT: A computer-designed, solvent-free scaffold offer several potential advantages such as ease of customized manufacture and in vivo safety. In this work, we firstly used a computer-designed, solvent-free scaffold and human dental pulp stem cells (hDPSCs) to regenerate neo-bone within cranial bone defects. The hDPSCs expressed mesenchymal stem cell markers and served as an abundant source of stem cells with a high proliferation rate. In addition, hDPSCs showed a phenotype of differentiated osteoblasts in the presence of osteogenic factors (OF). We used solid freeform fabrication (SFF) with biodegradable polyesters (MPEG-(PLLA-co-PGA-co-PCL) (PLGC)) to fabricate a computer-designed scaffold. The SFF technology gave quick and reproducible results. To assess bone tissue engineering in vivo, the computer-designed, circular PLGC scaffold was implanted into a full-thickness cranial bone defect and monitored by micro-computed tomography (CT) and histology of the in vivo tissue-engineered bone. Neo-bone formation of more than 50% in both micro-CT and histology tests was observed at only PLGC scaffold with hDPSCs/OF. Furthermore, the PLGC scaffold gradually degraded, as evidenced by the fluorescent-labeled PLGC scaffold, which provides information to tract biodegradation of implanted PLGC scaffold. In conclusion, we confirmed neo-bone formation within a cranial bone defect using hDPSCs and a computer-designed PLGC scaffold.

SUBMITTER: Kwon DY 

PROVIDER: S-EPMC4522608 | biostudies-literature | 2015 Aug

REPOSITORIES: biostudies-literature

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A computer-designed scaffold for bone regeneration within cranial defect using human dental pulp stem cells.

Kwon Doo Yeon DY   Kwon Jin Seon JS   Park Seung Hun SH   Park Ji Hun JH   Jang So Hee SH   Yin Xiang Yun XY   Yun Jeong-Ho JH   Kim Jae Ho JH   Min Byoung Hyun BH   Lee Jun Hee JH   Kim Wan-Doo WD   Kim Moon Suk MS  

Scientific reports 20150803


A computer-designed, solvent-free scaffold offer several potential advantages such as ease of customized manufacture and in vivo safety. In this work, we firstly used a computer-designed, solvent-free scaffold and human dental pulp stem cells (hDPSCs) to regenerate neo-bone within cranial bone defects. The hDPSCs expressed mesenchymal stem cell markers and served as an abundant source of stem cells with a high proliferation rate. In addition, hDPSCs showed a phenotype of differentiated osteoblas  ...[more]

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