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Bioactive Bone Substitute in a Rabbit Ulna Model: Preclinical Study.

Yu Ri Hong, Tae-Ho Kim, Kyueui Lee, Jeong Ok Lim, Chang-Wug Oh

Tissue engineering and regenerative medicine 2023 Dec


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    Current therapies to effectively treat long-bone defects and extensive bone tissue loss remains limited. In this study, we created a new bone substitute by integrating advanced technologies such as structure patterning, controlled release of a bone growth factor and conjugation system for clinically effective bone regeneration. This novel bioactive bone substitute was evaluated for its safety and efficacy using a rabbit ulna model. A three dimensional bone patterned cylindrical structure with 1.5 cm in length and 5 mm in diameter was printed using poly(L-lactic acid)(PLLA) as a weight-bearing support and space-filling scaffold. And a bone morphogenetic protein 2 (BMP2) was employed to enhance bone regeneration, and coated to a 3D PLLA using alginate catechol and collagen to prolong the release kinetics. This novel bone substitute (BS)was evaluated for its physico-chemical and biological properties in vitro, and histological analysis and radiographical analysis such as X-ray, CT and micro-CT image analysis were performed to evaluate new bone formation in vivo. The BS possesses an ideal shape and mechanically suitable proeperties for clinical use, with an easy-to-grab and break-resistant design at both ends, 80 ± 10 MPa of compression strength, and BMP2 release for two months. Histological analysis demonstrated the biocompability of BS with minimal inflammation and immune response, and X-ray, CT and micro-CT demonstrated effective new bone formation in rabbit ulna defect model. The preclinical study of a novel bioactive bone substitute has shown its safe and effective properties in an animal model suggesting its clinical potential. © 2023. Korean Tissue Engineering and Regenerative Medicine Society.

    Citation

    Yu Ri Hong, Tae-Ho Kim, Kyueui Lee, Jeong Ok Lim, Chang-Wug Oh. Bioactive Bone Substitute in a Rabbit Ulna Model: Preclinical Study. Tissue engineering and regenerative medicine. 2023 Dec;20(7):1205-1217

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    PMID: 37815697

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