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Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXIII | Pages 128 - 128
1 May 2012
Uzun H James B Dunstan C Wu C Ramaswamy Y Paschalidis A Zreiqat H Little D McDonald M
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Developing biomaterials for bone regeneration that are highly bioactive, resorbable and mechanically strong remains a challenge. Zreiqat's lab recently developed novel scaffolds through the controlled substitution of strontium (Sr) and zinc (Zn) into calcium silicate, to form Sr-Hardystonite and Hardystonite, respectively and investigated their in vivo biocompatibility and osteoconductivity

We synthesized 3D scaffolds of Sr-Hardystonite, Hardystonite and compared them to the clinically used tricalcium phosphate (micro-TCP) (6 × 6 × 6 mm) using a polyurethane foam template to produce a porous scaffold. The scaffolds were surgically implanted in the proximal tibial metaphysis of each tibia of Female Wistar rats. Animals were sacrificed at three weeks and six weeks post-implantation and bone formation and scaffold resorption were assessed by microcomputed tomography (micro-CT) histomorphometry and histology. Histological staining on undecalcified sections included Toluidine blue, tartrate-resistant acid phosphatase (TRAP) and alkaline phosphatase (ALP).

The bone formation rate and mineral apposition rate will be determined by analysing the extent and separation of fluorescent markers by fluorescent microscopy micro-CT results revealed higher resorbability of the developed scaffolds (Sr-Hardystonite and Hardystonite) which was more pronounced with the Sr-Hardystonite. Toluidine blue staining revealed that the developed ceramics were well tolerated with no signs of rejection, necrosis, or infection. At three weeks post implantation, apparent bone formation was evident both at the periphery and within the pores of the all the scaffolds tested. Bone filled in the pores of the Sr- Hardystonite and Hardystonite scaffolds and was in close contact with the ceramic. In contrast, the control scaffolds showed more limited bone ingrowth and a cellular layer separating the ceramic scaffolds from the bone. By six weeks the Hardystonite and Sr Hardystonite scaffolds were integrated with the bone with most pores filled with new bone. The control scaffold showed new bone formation in the plane of the cortical bone but little new bone where the scaffold entered the marrow space. Sr Hardystonite showed the greatest resorbability with replacement of the ceramic material by bone.

We have developed novel engineered scaffolds (Sr-Hardystonite) for bone tissue regeneration. The developed scaffolds resorbed faster than the clinically used micro- TCP with greater amount of bone formation replacing the resorbed scaffold.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_II | Pages 347 - 347
1 May 2009
Zimak J Pivonka P Smith D Gardiner B Dunstan C Sims N Martin T
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Parathyroid hormone (PTH) and derivatives such as teriparatide (PTH (1–34)) have gained major attention in recent years in treatment of osteoporosis due to their anabolic action on the bone remodelling cycle. These drugs are currently the only available agents being classified as sole anabolic. Interestingly, action of these agents strongly depends on the way they are administered. While these drugs act catabolically when given continuously, they act anabolically when administered in a pulsatile way. Several hypotheses have been proposed to explain this behaviour. However, so far no agreement as regards detailed underlying biochemical regulation has been made. Parallel to intense experimental research to resolve this problem a few mathematical models have been proposed dealing with this subject. In this paper we propose a novel underlying mechanism for anabolic action of PTH based on mathematical modelling of bone cell population dynamics. Using this model allows us to investigate various hypotheses put forward by bone biologists. Additionally, comparison with other theoretical models proposed in the literature will be made.