A novel in vivo platform for studying alveolar bone regeneration in rat

Joong-Hyun Kim; Ho-Jin Moon; Tae-Hyun Kim; Jong-Min Jo; Sung Hee Yang; Deboki Naskar; Subhas C Kundu; Wojciech Chrzanowski; Hae-Won Kim

doi:10.1177/2041731413517705

Journal of Tissue Engineering (Dec 2013)

A novel in vivo platform for studying alveolar bone regeneration in rat

Joong-Hyun Kim,
Ho-Jin Moon,
Tae-Hyun Kim,
Jong-Min Jo,
Sung Hee Yang,
Deboki Naskar,
Subhas C Kundu,
Wojciech Chrzanowski,
Hae-Won Kim

Affiliations

Joong-Hyun Kim: Department of Nanobiomedical Science & BK21 PLUS NBM Global Research Center for Regenerative Medicine, Dankook University, Cheonan, Republic of Korea
Ho-Jin Moon: Department of Conservative Dentistry, Dankook University Dental College, Cheonan, Republic of Korea
Tae-Hyun Kim: Department of Nanobiomedical Science & BK21 PLUS NBM Global Research Center for Regenerative Medicine, Dankook University, Cheonan, Republic of Korea
Jong-Min Jo: Department of Nanobiomedical Science & BK21 PLUS NBM Global Research Center for Regenerative Medicine, Dankook University, Cheonan, Republic of Korea
Sung Hee Yang: Department of Nanobiomedical Science & BK21 PLUS NBM Global Research Center for Regenerative Medicine, Dankook University, Cheonan, Republic of Korea
Deboki Naskar: Department of Biotechnology, Indian Institute of Technology Kharagpur, Kharagpur, India
Subhas C Kundu: Department of Biotechnology, Indian Institute of Technology Kharagpur, Kharagpur, India
Wojciech Chrzanowski: Faculty of Pharmacy, The University of Sydney, Sydney, NSW, Australia
Hae-Won Kim: Department of Biomaterials Science, Dankook University Dental College, Cheonan, Republic of Korea

DOI: https://doi.org/10.1177/2041731413517705
Journal volume & issue: Vol. 4

Abstract

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Alveolar bone regeneration is a significant challenge in dental implantation. Novel biomaterials and tissue-engineered constructs are under extensive development and awaiting in vivo animal tests to find clinical endpoint. Here, we establish a novel in vivo model, modifying gingivoperiosteoplasty in rat for the alveolar bone regeneration. Rat premaxillary bone defects were filled with silk scaffold or remained empty during the implantation period (up to 6 weeks), and harvested samples were analyzed by micro-computed tomography and histopathology. Empty defects showed increased but limited new bone formation with increasing implantation period. In defects implanted with silk sponge, the bone formation was significantly greater than that of empty defect, indicating an effective role of silk scaffold in the defect model. The modified premaxillary defect model in rat is simple to perform, while mimicking the clinical conditions, finding usefulness for the development of biomaterials and tissue-engineered constructs targeting alveolar bone regeneration in dental implantation.

Published in Journal of Tissue Engineering

ISSN: 2041-7314 (Online)
Publisher: SAGE Publishing
Country of publisher: United Kingdom
LCC subjects: Science: Chemistry: Organic chemistry: Biochemistry
Website: https://journals.sagepub.com/home/tej

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