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1. Assessment of collagen crosslinking and denaturation for the design of regenerative scaffolds

Author

Luca Salvatore, Deborah Pedone, Marta Madaghiele, Valentina Bonfrate, Alessandro Sannino, Emanuela Calò, and Mariaenrica Frigione

Subjects

Materials science, technology, industry, and agriculture, Metals and Alloys, Biomedical Engineering, macromolecular substances, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Biomaterials, Cell binding, Differential scanning calorimetry, Tissue scaffolds, Biochemistry, Ceramics and Composites, medicine, Biophysics, Prosthesis design, Denaturation (biochemistry), Adhesive, Swelling, medicine.symptom, Fourier transform infrared spectroscopy, 0210 nano-technology

Abstract

Crosslinking and denaturation were two variables that deeply affected the performance of collagen-based scaffolds designed for tissue regeneration. If crosslinking enhances the mechanical properties and the enzymatic resistance of collagen, while masking or reducing the available cell binding sites, denaturation has very opposite effects, as it impairs the mechanical and the enzymatic stability of collagen, but increases the number of exposed cell adhesive domains. The quantification of both crosslinking and denaturation was thus fundamental to the design of collagen-based scaffolds for selected applications. The aim of this work was to investigate the extents of crosslinking and denaturation of collagen-based films upon dehydrothermal (DHT) treatment, that is, one of the most commonly employed methods for zero-length crosslinking that shows the unique ability to induce partial denaturation. Swelling measurements, differential scanning calorimetry, Fourier transform infrared spectroscopy, colorimetric assays for the quantification of primary amines, and mechanical tests were performed to analyze the effect of the DHT temperature on crosslinking and denaturation. In particular, chemically effective and elastically effective crosslink densities were evaluated. Both crosslinking and denaturation were found to increase with the DHT temperature, although according to different trends. The results also showed that DHT treatments performed at temperatures up to 120°C maintained the extent of denaturation under 25%. Coupling a mild DHT treatment with further crosslinking may thus be very useful not only to modulate the crosslink density, but also to induce a limited amount of denaturation, which shows potential to partially compensate the loss of cell binding sites caused by crosslinking.

Published

2015