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Merck
  • Enhancing collagen stability through nanostructures containing chromium(III) oxide.

Enhancing collagen stability through nanostructures containing chromium(III) oxide.

Colloids and surfaces. B, Biointerfaces (2012-07-07)
Selvam Sangeetha, Usha Ramamoorthy, Kalarical Janardhanan Sreeram, Balachandran Unni Nair
摘要

Stabilization of collagen for various applications employs chemicals such as aldehydes, metal ions, polyphenols, etc. Stability against enzymatic, thermal and mechanical degradation is required for a range of biomedical applications. The premise of this research is to explore the use of nanoparticles with suitable functionalization/encapsulation to crosslink with collagen, such that the three dimensional architecture had the desired stability. Collagen solution prepared as per standard protocols is treated with chromium(III) oxide nanoparticules encapsulated within a polymeric matrix (polystyrene-block-polyacrylic acid copolymer). Selectivity towards encapsulation was ensured by the reaction in dimethyl sulfoxide, where the PS groups popped out and encapsulated the Cr(2)O(3). Subsequently when immersed in aqueous solution, PAA units popped up to react with functional groups of collagen. The interaction with collagen was monitored through techniques such as CD, FTIR, viscosity measurements, stress analysis. CD studies and FTIR showed no degradation of collagen. Thermal stability was enhanced upon interaction of nanostructures with collagen. Self-assembly of collagen was delayed but not inhibited, indicating a compete binding of the metal oxide encapsulated polymer to collagen. Metal oxide nanoparticles encapsulated within a polymeric matrix could provide thermal and mechanical stability to collagen. The formed fibrils of collagen could serve as ideal material for various smart applications such as slow/sustained drug release. The study is also relevant to the leather industry in that the nanostructures can diffuse through the highly networked collagen fibre bundles in skin matrix easily, thus overcoming the rate limiting step of diffusion.

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Sigma-Aldrich
三氧化二铬(III), powder, ≥98%
Sigma-Aldrich
三氧化二铬(III), powder, 99.9% trace metals basis
Sigma-Aldrich
三氧化二铬(III), nanopowder, <100 nm particle size (TEM), 98% trace metals basis