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Rapid assessment of the osteogenic capacity of hydroxyapatite/aragonite using a murine tibial periosteal ossification model

EMMA STEIJVERS, Yunshong Shi, HONG LU, Weixin Zhang, YITIAN ZHANG, Feihu Zhao Orcid Logo, Baichuan Wang, Louise Hughes, Jake E. Barralet Orcid Logo, Giulia Degli-Alessandrini, Igor Kraev Orcid Logo, Richard Johnston Orcid Logo, Zengwu Shao, Frank H. Ebetino, James T. Triffitt, R. Graham G. Russell, Davide Deganello Orcid Logo, Xu Cao, Zhidao Xia Orcid Logo

Bioactive Materials, Volume: 45, Pages: 257 - 273

Swansea University Authors: EMMA STEIJVERS, HONG LU, YITIAN ZHANG, Feihu Zhao Orcid Logo, Richard Johnston Orcid Logo, Davide Deganello Orcid Logo, Zhidao Xia Orcid Logo

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DOI (Published version): 10.1016/j.bioactmat.2024.11.025

Abstract

Biomaterials are widely used as orthopaedic implants and bone graft substitutes. We aimed to develop a rapid osteogenic assessment method using a murine tibial periosteal ossification model to evaluate the bone formation/remodelling potential of a biomaterial within 2–4 weeks. A novel hydroxyapatite...

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Published in: Bioactive Materials
ISSN: 2452-199X
Published: Elsevier BV 2025
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URI: https://cronfa.swan.ac.uk/Record/cronfa68385
Abstract: Biomaterials are widely used as orthopaedic implants and bone graft substitutes. We aimed to develop a rapid osteogenic assessment method using a murine tibial periosteal ossification model to evaluate the bone formation/remodelling potential of a biomaterial within 2–4 weeks. A novel hydroxyapatite/aragonite (HAA) biomaterial was implanted into C57BL/6 mice juxtaskeletally between the tibia and tibialis anterior muscle. Rapid intramembranous bone formation was observed at 14 days, with 4- to 8-fold increases in bone thickness and callus volume in comparison with sham-operated animals (p < 0.0001), followed by bone remodelling and a new layer of cortical bone formation by 28 days after implantation. The addition of zoledronate, a clinically-utilised bisphosphonate, to HAA, promoted significantly more new bone formation than HAA alone over 28 days (p < 0.01). The osteogenic potential of HAA was further confirmed by implanting into a 3.5 mm diameter femoral cancellous bone defect in rats and a 5 mm diameter femoral cortical bone defect in minipigs. To understand the biodegradation and the cellular activity at the cell/biomaterial interfaces, non-decalcified specimens were resin embedded and sections subjected to combined scanning electron microscopy (SEM)/electron backscatter diffraction (EBSD)/energy dispersive X-ray spectrometry (EDS) analysis. We conclude that murine tibial periosteal ossification is a novel method for rapid assessment of the interaction of bioactive materials with osteogenic tissues. This study also highlights that combining calcium carbonate with hydroxyapatite enhances biodegradation and osteogenesis.
College: Faculty of Medicine, Health and Life Sciences
Funders: This project was supported by Royal Society International Exchanges Grant 2021 (IES\R1\211128), Québec–Wales Collaboration Grant 2021 and Wales Innovation Network (WIN) Small Grants Fund (SG6-RIR1058-107). We would like to thank Prof. Cathy Thornton and Dr Ruth Jones for providing human umbilical cords, and Dr Christopher Von Ruhland, CBS, Cardiff University for supporting the resin embedding and sampling process.
Start Page: 257
End Page: 273

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