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Research

ELASTIC BIOMATERIALS AND ACCELERATED BONE REPAIR

The European Orthopaedic Research Society (EORS) 2018 Meeting, PART 1, Galway, Ireland, September 2018.



Abstract

Robust repair relies on blood flow. This vascularization is the major challenge faced by tissue engineering on the path to forming thick, implantable constructs. Without this vasculature, oxygen and nutrients cannot reach the cells located far from host blood vessels. To make viable constructs, tissue engineering takes advantage of the mechanical properties of synthetic materials, while combining them with extracellular matrix proteins to create a natural environment for the tissue- specific cells. Tropoelastin, the precursor of the elastin, is the extracellular matrix protein responsible for elasticity in diverse tissues, including robust blood vessels. We find that tropoelastin contributes a physical role in elasticity and also substantially to the biology of repairing tissue. The emerging model from a range of our in vivo studies is that tropoelastin encodes direct biological effects and has the versatility to promote repair. We have discovered that tropoelastin substantially improves healing by halving the time to repair bone in small animals and large animal preclinical models; tropoelastin elicits this response with early stage neo-angiogenesis, recruitment of endogenous cells with consistently accelerated repair. This potency is marked by the concerted appearance of blood vessels, tissue and phased cellular contributions that work together to accelerate repair.


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