Фармацевтичний журнал (Oct 2021)
Study of the effect of dermatological phytogel on the ability of microorganisms to form a biofilm
Abstract
The development of many chronic infections, including skin diseases, is caused by bacteria growing in the form of biofilms. Bacterial biofilms provide beneficial survival mechanisms that determine virulence, disease pathogenesis, or resistance of the pathogen to antibiotics. As shown by a large number of studies, biofilms play an important role in the pathogenesis of dermatological diseases, including atopic dermatitis. The close relationship between the microbial biofilm that colonizes the skin surface and the negative consequences for human health makes the skin microbiome an object of therapeutic intervention in dermatological pathogenic processes. The work aims to study the effect of dermatological phytogel on the ability of microorganisms to form biofilms. The objects of research were samples of gel containing dry walnut leaf extract with the sum of tannins in terms of gallic acid and dry matter 30 mg/100 g of gel, dry nettle extract with the sum of hydroxycinnamic acids in terms of chlorogenic acid, and dry matter 20 mg/100 g of gel, dry thyme extract with the sum of flavonoids in terms of rutin and dry matter 35 mg/100 g of gel both monocomponent and combined. The study of the ability of individual plant components of phytogel samples N 1, N 2, N 3 and samples of combined phytogel N 4, N 5, and N 6 to influence biofilm formation have shown that the most pronounced decceleration of biofilms formation was registered in the gel sample with phytocomplex N 4 and was 19.7–20.7% to S. aureus, E. coli, P. aerugenosis and C. albicans respectively. The activity of the gel sample with phytocomplex N 4 was 1.3–1.4 times higher than that of monocomponent gel samples N 1, N 2, and N 3. When determining the ability of the test samples to destroy biofilms, it has been found that the gel sample with phytocomplex N 4 showed the greatest activity, which exceeded the specified properties of samples N 5 and N 6 by an average of 1.2 and 1.8 times. The activity of single-component gel samples N 1, N 2, and N 3 was lower in S. aureus, E. coli, P. aerugenosis and C. albicans biofilm destruction. The conducted studies prove the feasibility of further study of the combined gel with the phyto complex № 4 containing dry walnut leaf extract with the sum of tannins in terms of gallic acid and dry matter 30 mg/100 g of gel, dry nettle extract with the sum of hydroxycinnamic acids in terms of chlorogenic acid, and dry matter 20 mg/100 g of gel, dry thyme extract with the sum of flavonoids in terms of rutin and dry matter 35 mg/100 g of gel.
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