4.7 Article

Insight into Factors Influencing Wound Healing Using Phosphorylated Cellulose-Filled-Chitosan Nanocomposite Films

Journal

Publisher

MDPI
DOI: 10.3390/ijms222111386

Keywords

chitosan; cellulose; phosphorylated cellulose; bio-composites; wound-healing

Funding

  1. CNRST-CNRS [PHC 19/87]
  2. Projet Prioritaire [PPR1/2015/73]

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Marine polysaccharides are promising wound-dressing nanomaterials due to their biocompatibility, antibacterial and hemostatic properties. Efforts are focused on preparing polysaccharide-derived nanomaterials functionalized with chemical objects to meet mechanical and biological requirements for ideal wound healing. Cellulose-filled chitosan transparent films were investigated for their potential in accelerating wound healing, showing positive effects on hemostatic properties and antioxidant capacity, as well as biocompatibility with human cell lines.
Marine polysaccharides are believed to be promising wound-dressing nanomaterials because of their biocompatibility, antibacterial and hemostatic activity, and ability to easily shape into transparent films, hydrogels, and porous foams that can provide a moist micro-environment and adsorb exudates. Current efforts are firmly focused on the preparation of novel polysaccharide-derived nanomaterials functionalized with chemical objects to meet the mechanical and biological requirements of ideal wound healing systems. In this contribution, we investigated the characteristics of six different cellulose-filled chitosan transparent films as potential factors that could help to accelerate wound healing. Both microcrystalline and nano-sized cellulose, as well as native and phosphorylated cellulose, were used as fillers to simultaneously elucidate the roles of size and functionalization. The assessment of their influences on hemostatic properties indicated that the tested nanocomposites shorten clotting times by affecting both the extrinsic and intrinsic pathways of the blood coagulation system. We also showed that all biocomposites have antioxidant capacity. Moreover, the cytotoxicity and genotoxicity of the materials against two cell lines, human BJ fibroblasts and human KERTr keratinocytes, was investigated. The nature of the cellulose used as a filler was found to influence their cytotoxicity at a relatively low level. Potential mechanisms of cytotoxicity were also investigated; only one (phosphorylated microcellulose-filled chitosan films) of the compounds tested produced reactive oxygen species (ROS) to a small extent, and some films reduced the level of ROS, probably due to their antioxidant properties. The transmembrane mitochondrial potential was very slightly lowered. These biocompatible films showed no genotoxicity, and very importantly for wound healing, most of them significantly accelerated migration of both fibroblasts and keratinocytes.

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