Zaporožskij Medicinskij Žurnal (Apr 2023)

Effect of walnut extract supplemented with carbon dioxide on adhesive activity of agents causing wound infection

  • I. V. Mozhaiev,
  • V. Yu. Yevsiukova,
  • I. I. Torianyk,
  • V. V. Minukhin,
  • N. M. Polishchuck,
  • D. L. Kyryk

DOI
https://doi.org/10.14739/2310-1210.2023.2.263966
Journal volume & issue
Vol. 25, no. 2
pp. 158 – 163

Abstract

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The aim: to study the effect of 3 % carbon dioxide walnut extract (CDWE) on the adhesive properties of gram-positive and gram-negative microorganisms. Materials and methods. The objects of the study – 3 % CDWE, museum strains of the ATCC collection and clinical cultures of microorganisms: A. baumannii, S. aureus, E. coli, K. pneumoniae, P. aeruginosa, C. albicans. Native and formalinized human erythrocytes of 0(I) Rh-positive blood group were used as a substrate for adhesion. A smear was prepared from each sample, which was stained by the Romanovsky–Giemsa method. According to the results of smear microscopy, the adhesion index of microorganisms (AIM) was calculated. Results. A preliminary study of the adhesion ability of museum and clinical strains of microorganisms revealed that all cultures possessed highly adhesive properties. The addition of 3 % CDWE significantly inhibited their adhesive properties. Thus, in studies with museum strains, it was found that the AIM of S. aureus was decreased by 59.47 %, K. pneumonia – by 59.17 %, E. coli – by 56.32 %, P. aeruginosa – by 48.70 %, A. baumannii – by 49.77 %, C. albicans – by 51.59 %. In the experiments, a decrease in AIM of all clinical strains of microorganisms was detected: S. aureus – by 55.00 %, K. pneumonia – by 53.50 %, E. coli – by 53.54 %, P. aeruginosa – by 49.04 %, A. baumannii – by 50.42 %, C. albicans – by 53.13 %. Conclusions. The results gained from the study of the 3 % CDWE effect on the adhesive activity collectively suggest its high ability to inhibit the adhesive activity of museum and clinical strains of purulent-inflammatory infections (S. aureus, P. aeruginosa, A. baumannii, K. pneumoniae, E. coli, C. albicans) and prevent the formation of a bacterial biofilm. These properties indicate potential benefits from further study on the biological properties of CDWE and the development of new antimicrobial drugs based on it for the treatment of purulent-inflammatory infections.

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