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Merck

One-step fabrication of apatite-chitosan scaffold as a potential injectable construct for bone tissue engineering.

Carbohydrate polymers (2018-10-16)
Kaushar Jahan, Mina Mekhail, Maryam Tabrizian
RESUMEN

Biomineralization of soft scaffolds is a new venture in bone tissue engineering. This work aimed to develop a new injectable and in-situ gelling soft scaffold with chitosan and apatites through a rapid purine-crosslinking reaction. The scaffolds were fabricated by mixing chitosan, adenosine diphosphate and biominerals in an 'all-in-one-step' procedure. The gelling of chitosan via the crosslinker occurs in <4 s as measured by impedance spectroscopy. These soft gels could retain up to 4 times their weight in water. Spectroscopy showed the formation of ionic bonds between chitosan and the apatites. Morphological analyses revealed an interconnected, highly porous structure, with pore size ranging from 200 nm-200 μm that was maintained even with the biominerals. Rheology showed a viscoelastic behavior of the solutions and the elastic behavior of the sponges, and therefore their injectability potential. in vitro studies showed good cell adhesion and morphology, as well as potential use for bone tissue engineering applications.

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Sigma-Aldrich
Adenosine 5′-diphosphate sodium salt, bacterial, ≥95% (HPLC)
Sigma-Aldrich
Alizarin, Dye content 97 %