Reduced Susceptibility of Salmonella Typhimurium Strains to Oregano Essential Oil and Enrofloxacin: An In Vitro Assay.

Several European animal nutrition companies have incorporated essential oils (EOs) into animal feed as a result of the prohibition of antibiotics to promote animal growth. Previous studies of EOs have highlighted the absence of bacterial resistance for these substances, although most of the published works focus on studying their tolerance to subinhibitory doses. For this study, oregano essential oil (OEO) was chosen for its proven inhibitory and bactericidal activity. This study is an in vitro assay of the possible induction of Salmonella enterica serovar Typhimurium strains with reduced susceptibility to OEO by mutation, seeking to calculate the mutant prevention concentration (MPC) since this is an important measurement for the control Salmonella's resistance to fluoroquinolones such as enrofloxacin (ENR), the treatment of choice for this infection. To establish the MPC, we used a bacterial inoculum ≥109 colony-forming unit (CFU)/mL and examined the bases for points of resistance to ENR and mutations of target genes of the quinolone resistance determining region (QRDR). The three strains of Salmonella Typhimurium used in this study showed an MPC of four times the minimum inhibitory concentration (MIC) for ENR. In all cases, strains with reduced susceptibility to ENR were obtained, although none reached the point of resistance. The QRDR characterization region was in all cases of wild type (wt). Two of the strains tested with OEO grew at a concentration of 1 × MIC, which could be strains with reduced susceptibility, associated with mutation or not. In this case, the MPC was 2 × MIC. Once isolated and identified as Salmonella Typhimurium, the MIC against OEO of all strains obtained in the induction test indicated a possible reduction in susceptibility. However, the result obtained for both strains coincided with MIC of the original strains, rejecting a priori such a reduced susceptibility of Salmonella Typhimurium to OEO.

Susceptibility Distribution to Essential Oils of Salmonella enterica Strains Involved in Animal and Public Health and Comparison of the Typhimurium and Enteritidis Serotypes.

To determine the distribution of the minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of essential oils (EOs) of cinnamon (Cinnamomum zeylanicum), clove (Eugenia caryophyllata), oregano (Origanum vulgare), common thyme (Thymus vulgaris), and red thyme (Thymus zygis) against Salmonella enterica, double serial dilutions of each EO were challenged with 85 Salmonella strains belonging to 23 serotypes of animal origin. The results showed the bactericidal character of the EOs tested against S. enterica, highlighting the oregano with MIC50 and MBC50 of 3.12 × 10-4 g/mL, and MIC90 and MBC90 of 6.25 × 10-4 g/mL. When comparing the Salmonella Typhimurium and Salmonella Enteritidis serotypes susceptibility, we observed a significantly higher sensitivity of Typhimurium to clove and Enteritidis to cinnamon. In addition, Typhimurium isolates with significantly higher MIC and MBC values for all the EOs tested were found, suggesting the existence of a possible resistance profile. The results of this study provide relevant data for the potential of EOs as antibacterials, although they highlight the need to continue bacterial sensitivity distribution studies and consider the differences detected for future in vivo studies.

Antimicrobial activity of selected essential oils against Streptococcus suis isolated from pigs.

The inhibitory potential by contact and vapor of basil, cinnamon, clove, peppermint, oregano, rosemary, common thyme, and red thyme essential oils (EOs) against 20 strains of Streptococcus suis was determined by the disk diffusion test. The broth microdilution method was used to determine the minimal inhibitory and minimal bactericidal concentration (MIC and MBC) of the four selected oils. Furthermore, the bactericidal power (ratio MBC/MIC) was calculated. The EOs with the major potential in the disk diffusion method were red thyme, common thyme, oregano, and cinnamon (∅ mean 16.5-34.2 mm), whereas cinnamon did not show vapor activity. In the microdilution test, all the EOs showed notable antimicrobial activity (MIC90 and MBC90 312.5-625 µg·ml-1 ) and a strong bactericidal power (ratio = 1). This is the first study that selects essential oils against S. suis. New studies about the possible synergic effect of EOs with antibiotics and about toxicity and efficacy in in vivo conditions are recommended.

Combination of Antimicrobials and Essential Oils as an Alternative for the Control of Salmonella enterica Multiresistant Strains Related to Foodborne Disease.

Due to the increase in bacterial resistance to antimicrobials (AMBs) commonly used in veterinary and human medicine, the new strategies for controlling zoonoses focus on the study of natural products with demonstrated AMB activity, such as essential oils (EOs). The aim of this study was to evaluate the in vitro effect of the combination of enrofloxacin (ENR), ceftiofur (CEF), and trimethoprim-sulfamethoxazole (SXT) with cinnamon, clove, oregano, and red thyme EOs against multiple drug-resistant strains of Salmonella enterica. The minimum inhibitory concentration (MIC) of each product was determined by microdilution and "Checkerboard" methods and their combined effect was evaluated against 15 strains of S. enterica. The results were interpreted by the calculation of fractional inhibitory concentration (FIC) and their respective indexes (FICI). Significant susceptibility of all strains to the four EOs was observed. The results showed a synergistic effect between EOs and AMBs tested, highlighting the upper percentage of total synergies of the SXT with the four EOs (FICI ≤0.5 in 60% of assays), and the most effective combination being the one of ENR and cinnamon. The MIC of cinnamon was reduced from 1250 to 312.5 µg/mL and the MIC of ENR from 2 to 0.031 µg/mL. There was no antagonism in the tested combinations (AMBs-EOs). Our results support the combined use of EOs and AMBs for the control of multiresistant strains of S. enterica with a reduction of the minimum effective dose of AMBs and their adverse effects.