Issue 22, 2017

Resorbable nanocomposites with bone-like strength and enhanced cellular activity

Abstract

Bone cements for treatment of fractures at weight-bearing sites are subjected to dynamic physiological loading from daily activities. An ideal bone cement rapidly sets after injection, exhibits bone-like strength, stimulates osteogenic differentiation of endogenous cells, and resorbs at a rate aligned with patient biology. However, currently available materials fall short of these targeted properties. Nanocrystalline hydroxyapatite (nHA) enhances osteogenic differentiation, new bone formation, and osteoclast differentiation activity compared to amorphous or micron-scale crystalline hydroxyapatite. However, the brittle mechanical properties of nHA precludes its use in treatment of weight-bearing bone defects. In this study, we report settable nHA–poly(ester urethane) (PEUR) nanocomposites synthesized from nHA, lysine triisocyanate (LTI), and poly(caprolactone) triol via a solvent-free process. The nanocomposites are easily mixed and injected using a double-barrel syringe, exhibit mechanical properties exceeding those of conventional bone cements, enhance mineralization of osteoprogenitor cells in vitro, and undergo osteoclast-mediated degradation in vitro. This combination of properties cannot be achieved using other technologies, which underscores the potential of nHA–PEUR nanocomposites as a new approach for promoting bone healing at weight-bearing sites.

Graphical abstract: Resorbable nanocomposites with bone-like strength and enhanced cellular activity

Article information

Article type
Paper
Submitted
09 Mar 2017
Accepted
10 May 2017
First published
11 May 2017

J. Mater. Chem. B, 2017,5, 4198-4206

Resorbable nanocomposites with bone-like strength and enhanced cellular activity

S. Lu, M. A. P. McGough, B. R. Rogers, J. C. Wenke, D. Shimko and S. A. Guelcher, J. Mater. Chem. B, 2017, 5, 4198 DOI: 10.1039/C7TB00657H

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