Please use this identifier to cite or link to this item: https://biore.bio.bg.ac.rs/handle/123456789/4640
Title: Cymbopogon martinii essential oil nanoemulsions: Physico-chemical characterization, antibacterial and antibiofilm potential against Enterococcus faecalis
Authors: Marinković, Jelena
Bošković, Marko
Tasić, Gvozden
Vasilijević, Bojana 
Marković, Dejan
Marković, Tatjana
Nikolić, Biljana 
Keywords: Antibiofilm potential;Enterococcus faecalis;Nanoemulsions;Root canal infection;Tooth
Issue Date: 1-Nov-2022
Rank: M21a
Publisher: ELSEVIER
Citation: Jelena Marinković, Marko Bošković, Gvozden Tasić, Bojana Vasilijević, Dejan Marković, Tatjana Marković, Biljana Nikolić, Cymbopogon martinii essential oil nanoemulsions: Physico-chemical characterization, antibacterial and antibiofilm potential against Enterococcus faecalis, Industrial Crops and Products, Volume 187, Part B, 2022, 115478, ISSN 0926-6690, https://doi.org/10.1016/j.indcrop.2022.115478.
Journal: Industrial Crops and Products
Abstract: 
Cymbopogon martinii is an aromatic crop cultivated for the production of its essential oil (EO) which has different applications. Bearing in mind that C. martinii EO (CMEO) has already been proved for high antibacterial potential the aim of this study was to formulate stable CMEO nanoemulsions, being capable to combat Enterococcus faecalis biofilm, especially within infected tooth’s root canal. Ten emulsions with variable CMEO content (2.5–10 % v/v) and Tween 80 (T80, 2.5–15 % v/v) were formulated (designated as ECMEO:T80) and screened for volume-weighted mean diameter (D4,3) and stability, using dynamic light scattering measurements. Chemical composition of stable nanoemulsions was monitored by UV–VIS and FTIR, while their antibacterial activity was estimated in microdilution assay. Antibiofilm properties of selected nanoemulsions were tested in vitro (cristal violet assay) and ex vivo (within root canals of the extracted teeth). Results showed that formulations containing 10 % of T80 and CMEO volume ≤ 6 %, as well as those having constant 2.5 % of CMEO and variable T80 volume (≤ 10%), namely E2.5:2.5, E2.5:5, E2.5:7.5, E2.5:10, E4:10, and E6:10, were stable and nanosized (D4,3 <100 nm). FTIR and UV–VIS analyses confirmed successful encapsulation of the CMEO by T80 and showed that nanoemulsification did not affect CMEO composition. Evaluation of antibacterial potential showed that the most efficient were E6:10, E2.5:2.5 and E4:10 (MIC values 0.37–1.97 mg mL−1). Analysis of dependency of determined MICs on mean diameter and CMEO volume showed that antibacterial potential increased with both parameters. E6:10, E2.5:2.5 and E4:10 also reduced in vitro biofilm (inhibitory range 17.6–58.4 %), as well as intracanal biofilm (reduction ~2Log CFU). Presented results suggest E6:10, E4:10 and E2.5:2.5 as the good candidates for further research.
URI: https://biore.bio.bg.ac.rs/handle/123456789/4640
ISSN: 0926-6690
DOI: 10.1016/j.indcrop.2022.115478
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