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Research

NEAR INFRARED-RESPONSIVE HYDROGELS FOR THE SPATIOTEMPORAL CONTROL OF BONE MORPHOGENETIC PROTEIN 2 BIOAVAILABILITY IN CRITICAL-SIZED BONE DEFECTS

The European Orthopaedic Research Society (EORS) 2018 Meeting, PART 3, Galway, Ireland, September 2018.



Abstract

There is a growing interest in the development of tissue engineering (TE) therapies to repair damaged bone. Among the scaffolds for TE applications, injectable hydrogels have demonstrated great potential as three-dimensional cell cultures in bone TE, owing to their high water content, porous structure that allows cell transplantation and proliferation, similarity to the natural extracellular matrix and ability to match irregular defects. We investigated whether fibrin-based hydrogels capable of transducing near infrared (NIR) energy into heat can be employed to lead bone repair. Hollow gold nanoparticles with a plasmon surface band absorption at ∼750 nm, a NIR wavelength within the so called “tissue optical window”, were used as fillers in injectable fibrin-based hydrogels. These composites were loaded with genetically-modified cells harbouring a heat-activated and rapamycin-dependent gene circuit to regulate transgenic expression of the reporter gene firefly luciferase (fLuc). NIR-responsive cell constructs were injected to fill a 4 mm diameter critical-sized defect (CSD) in the parietal bone of mouse calvaria. NIR-irradiation in the presence of rapamycin triggered a pattern of fLuc activity that faithfully matched the illuminated area of the implanted hydrogel. Having shown that this platform can control the expression of a transgene product, we tested its effectiveness on regulating the secretion of transgenic bone morphogenetic protein 2 (BMP-2) from NIR-responsive hydrogels implanted in CSD. The spatiotemporal pattern of transgenic BMP-2 secretion induced by NIR-irradiation in the presence of rapamycin significantly stimulated bone regeneration from the edge of osteotomy in the CSD practiced, validating the therapeutic approach.


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