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  • Effect of Sulfation Route and Subsequent Oxidation on Derivatization Degree and Biocompatibility of Cellulose Sulfates.

Effect of Sulfation Route and Subsequent Oxidation on Derivatization Degree and Biocompatibility of Cellulose Sulfates.

Macromolecular bioscience (2019-12-31)
Juliane Strätz, Andrea Liedmann, Thomas Heinze, Steffen Fischer, Thomas Groth
ABSTRACT

Sulfated cellulose (CS) represents an interesting biopolymer due to bioactivity comparable to heparin. However, use of CS for making surface coatings or hydrogels requires the presence of reactive groups for covalent reactions. Here, an approach is presented to oxidize cellulose sulfates for subsequent cross-linking reactions with amino groups to form imine bonds. Cellulose is sulfated by direct sulfation or acetosulfation, followed by a Malaprade oxidation. The CS obtained is characterized by elemental analysis and 13 C-NMR spectroscopy. The resulting oxidized cellulose sulfates (oxCS) have different degrees of sulfation ranging from 0.79 to 1.13 and oxidation degrees from 0.18 to 0.34, but also different mass average molecular mass (MW ). Toxicity studies are carried out with mouse 3T3 fibroblasts exposed to aqueous solutions of oxCS. The results show that all oxCS are non-toxic at lower concentrations (0.5 mg mL-1 ), but with both increasing degree of oxidation and concentrations, toxic effects are observed particularly for acetosulfated and lesser for direct sulfated oxCS, which is related to a decrease in the MW of the products. It is concluded that oxCS obtained by direct sulfation with MW above 70 kDa may represent a biocompatible material for the applications suggested above.

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Sigma-Aldrich
Sulfur trioxide trimethylamine complex