Carbohydrate Polymer Technologies and Applications (Dec 2021)
Structure and properties of microcellulose-based coatings deposited via a low-energy electron beam and their effect on the properties of onto wound dressings
Abstract
The molecular structure and properties of a three-layer system based on CaH2, P2O5, microcrystalline cellulose + miramistin deposited via a low-energy electron beam onto a wound dressing have been considered. A cross-linked cellulose layer containing carbon particles and a drug component serves as the coating. The cross-linked structure of the coating enhances the resistance of the miramistin to thermal degradation. The high sorption activity of the gauze substrate determines the exponential nature of the change in the miramistin concentration in the solution. The deposition of a three-layer coating (CaH2 + P2O5 + (cellulose + miramistin)) allows imparting prolonged antibacterial (E. coli, S. aureus) and antifungal (C. alibicans) properties to gauze dressings, reducing the rate of moisture desorption from its volume as a result of the hydrogel formation on the surface of the fibers. Here, the hydrogel formation affects the decrease (over two times) in the gauze's ability to sorb moisture.