Comparative assesment of efficiency application cold atmospheric plasma and biopolymerous coats evaluation of the effectiveness for the treatment of skin burns of iii degree in experiment

The results of the application of cold atmospheric plasma are discussed in the experimental study. The effectiveness of an experimental wound dressing based on chitosan nanofibers and copolyamide and a commercial wound dressing material based on hyaluronic acid hydrogel in the treatment of third-degree skin burns (ICD-10) is also evaluated. During the first phase of the study, an original method of inflicting thermal burn on the skin of small laboratory animals (rodents) was developed. The temperature of dehaired skin and the temperature of skin heated by resistive electrical element metal plate were obtained through a digital thermometer sensor. The source for the generation of cold atmospheric plasma was made by specialists of St. Petersburg Polytechnic University of Peter the Great. Biopsy material for histological assay was taken 3, 7, 12, 15, 21, and 28 days after treatment. Paraffinic microscopic sectioning was performed with hematoxylin and eosin; after this, microscopic assay was done. The use of cold atmospheric plasma decreases the frequency of purulent complications and also helps reduce the recovery time of the skin by 20% (p < 0.05) but is not sufficient to achieve the result that has been proclaimed after an early escharectomy and replacement of surgical defects by wound dressing materials based on natural polymers. It was demonstrated that the wound dressing based on aliphatic copolyamide and chitosan and hyaluronic acid hydrogel can help significantly accelerate the process of reparative regeneration and histogenesis in the heat-affected zone after escharectomy for up to 14.6%-46% (p < 0.05).