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Determination of the antimicrobial effectiveness of the essential oil of Origanum vulgare against strains of Escherichia coli isolated from bovine mastitis | ||
| Caspian Journal of Environmental Sciences | ||
| مقالات آماده انتشار، اصلاح شده برای چاپ، انتشار آنلاین از تاریخ 30 مهر 1402 اصل مقاله (785.8 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22124/cjes.2023.7202 | ||
| نویسندگان | ||
| Jairo Hernández Ramírez1؛ Riveliño Ramon Curay1؛ Jagger Segura Ochoa1؛ Joao Mazón Vélez1؛ David Javier Cazar Chávez2 | ||
| 1Universidad Estatal de Bolivar, Facultad de Ciencias Agropecuarias, Direccion de Investigaciòn y Vinculacion, Carrera de Medicina Veterinaria, CP: 020150, Guaranda, Ecuador | ||
| 2Clínica Veterinaria Mi Amigo Fiel, CP: 060104, Riobamba, Ecuador | ||
| چکیده | ||
| Milk production is mainly affected by pathologies such as mastitis, caused mainly by bacteria, where one of the most important is Escherichia coli. In this sense, the objective of the present investigation was to determine the antimicrobial effectiveness of the essential oil of Origanum vulgare against strains of E. coli isolated from bovine mastitis. Therefore, the presence of the bacterium was analyzed in the farm "La felicidad" located in the province of Chimborazo (Ecuador). The initial identification of the microorganism was made using the CMT diagnostic test. Subsequently, the isolation by means of plate culture and its characterization using the IMVIC tests were carried out. On the other hand, the essential oil of oregano was obtained by steam distillation. These oils were studied for their antimicrobial affectivity against the isolated strains of E. coli, and their MIC was also analyzed. As results, the total prevalence of mastitis was 26.25%. Of the 28 samples analyzed, 18 isolates (64.29%) corresponded to Escherichia coli. After the antimicrobial activity, oregano oil with a 60% concentration was the one that showed the best performance against the pathogen. In the CMI, from the concentration of 3% of essential oil there was an inhibitory effect. Finally, gas chromatography of oregano oil showed that formic acid and p-Cymeno were the most present. In conclusion, natural organ oil can be a phytopharmacological alternative against pathogens that cause bovine mastitis. | ||
| کلیدواژهها | ||
| Antimicrobial activity؛ Oregano essential oil؛ Escherichia coli؛ Bovine mastitis | ||
| مراجع | ||
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Abalco, T 2020, Phytochemical characterization of oregano essential oil (O. vulgare L.) by gas chromatography from two provinces of Ecuador. Universidad Central Del Ecuador, Ecuador, 115 p. [In Spanish].
Aemps, AE 2018, Guide to Essential Oils in Cosmetic Products. Edqm. Eu (1 Edition), Academic Press, Madrid, Spain, 43 p. [In Spanish].
Ashraf, A & Imran, M 2018, Diagnosis of bovine mastitis: From laboratory to farm. Tropical Animal Health and Production, 50: 1193 - 1202.
Ayala, C 2019, Determination of the most frequent bacteria causing subclinical mastitis and sensitivity to antibiotics in Creole cows from the municipality of Santa Apolonia, Chimaltenango. Guatemala: University of San Carlos de Guatemala, Faculty of Veterinary Medicine and Zootechnics, School of Veterinary Medicine, Guatemala, 30 p. [In Spanish].
Bonifaz, N & Conlago, F 2016, Prevalence and incidence of bovine mastitis using the California Mastitis Test with identification of the etiological agent, in farming, Ecuador. La Granja, Revista De Ciencias De La Vida, 24: 43-52. [In Spanish].
Calvinho, L 2017, Annals of the National Academy of Agronomy and Veterinary Medicine - Tomo LXX.
Castillo, B, Vargas, L, Hueckmann, V & Romero, Z 2019, Factors affecting first lactation production of dairy cows Costa Rica. Agronomia Mesoamericana, 30: 209 - 227. [In Spanish].
Chen, S, Wu, M, Lu, P, Gao, L, Yan, S & Wang, S 2020, Development of pH Indicator and antimicrobial cellulose nanofibre packaging fim based on purple sweet patato anthocyanin and oregano essential oil. International Journal of Biological Macromolecules, 149: 271 - 280.
CLSI 2020, Performance standards for dilution and antimicrobial disc susceptibility testing for bacteria isolated from animals, 5th Edition, ClSI, [In Spanish].
Concha, HM 2020, Oregano spp. oil review in health and animal production. Abanico Agroforestal, 2: 1-22.
Contreras, CS 2017, In vitro synergistic effect of Origanum vulgare “Oregano” essential oil with Ciprofloxacin against Ampicillin-resistant E. coli ”, pp. 30-31. [In Spanish].
Duraffourd, C, Lapraz, J & L, H 1987, Clinical phytotherapy notebooks. In: C, Duraffourd, J, Lapraz, & HL, Cuadernos De Phytoterapia Clínica. Masson. [In Spanish].
Flores, B, Mora, B, Elías, J & Torres, D 2021, Inhibitory effect of the hydroalcoholic extract of “Eucalyptus” Eucalyptus globulus on bacteria isolated from cows with mastitis. Revista Kasmera, 49: e49235288.
Flores, S & García, F 2021, Antibacterial Activity of Alcohol Gel Based on Essential Oil Syzygim aromaticum (Clavo De Olor) against a Staphylococcus aureus. Universidad Privada De Huancayo. [In Spanish].
Franco, MF 2020, prevalence and antimicrobial resistance profile of mastitis-causing bacteria isolated in raw bovine milk in an establishment in the town of Shoenweide, Department of Presidente Hayes, Paraguay. Universidad Nacional De La Plata. [In Spanish].
Guzñay, E 2021, Microbiological Diagnosis of bovine mastitis and evaluation of three treatment alternatives at the Jersey “El Puente” Hatchery in Chimborazo. Riobamba, Ecuador: Escuela Superior Politécnica De Chimborazo: Http://Dspace.Espoch.Edu.Ec/Bitstream/123456789/16271/1/17t01686.Pdf.
Jiménez, M, Gudiño, S, Aguilar, L & Loeza, L 2017, Molecular characterization of antibiotic-resistant Escherichia coli isolated from bovine mastitis in Michoacán, México. Revista Mexicana de Ciencias Pecuarias, 8: 387-396. [In Spanish].
Kandeel, SA, Morin, DE, Calloway, CD & Costable, PD 2018, Association of California Mastitis Test scores with intramammary infection status in lactating dairy cows admitted to a Veterinary Teaching Hospital. Journal of Veterinary Internal Medicine, 32: 497 - 505. [In Spanish].
Kasai, S, Prasad, A, Kumagai, R & Takanohashi, K 2022, Scanning electrochemical microscopy - somatic cell count as a method for diagnosis of bovine mastitis. Biology, 11: 549.
Khasanah, U, Mahasri, G & Kusdarwati, R 2021, Examination of Escherichia coli bacteria in blood cockle satay (Anadara granosa) sold at surabaya traditional market, Indonesia. World’s Veterinary Journal, 11: 79-84.
Llanos, V 2022, efecto antibacteriano in vitro de la mezcla del aceite esencial de Origanum Vulgare “Orégano” y Rosmarinus Officinalis “Romero” against a Staphylococcus aureus and Escherichia coli. Cajamarca, Perú, [In Spanish].
Locatelli, C, Barberio, A, Bonamico, S, Casula, A, Moroni, P & Bronzo, V 2019, Identification of multidrug-resistant Escherichia coli from bovine clinical mastitis using a Ceftiofur-supplemented medium. Fooodborne Pathogens and Disease, 18: 590 - 596.
Manouchehri, N 2023, Most important medicinal plants with anti-halitosis property: An overview. Journal of Biochemicals and Phytomedicine, 2: 1-2.
Medrano, E & Medrano, D 2020, “antimicrobial activity and disinfectant effect of essential oil of Origanum vulgare L. (Orégano) against a Staphylococcus aureus & Escherichia coli”. Lima, Perú. (In Spanish).
Mutlu, A, Catalkaya, G, Capanoglu, E & Karbancioglu, G 2021, Antioxidant and antimicrobial activities of fennel, ginger, oregano and thyme essential oils. Food Frontiers, 2: 50.
Ncm, NM 2017, Laboratory handbook on bovine mastitis (Vol. Third edition). Minnesota, USA, 151p.
Pavli, F, Argyri, A, Skandamis, P, Nychas, G, Tassou, C & Chorianopoulos, N 2019, Antimicrobial activity of oregano essential oil incorporated in sodium alginate edible films: Control of Listeria Monocytogenes and spoilage in ham slices treated with high pressure processing. Materials, 12: 3726.
Pedroza, A 2018, Technical management of mastitis and milk quality. Argentine Animal Production Site.
Proaño, S & Vásconez, C 2013, Determination of bovine mastitis using the California Mastitis Test, somatic cell count and bacteriological culture in the community of Llanos de Albas of the Cayambe Canton, Province of Pichincha. Quito: Pontifical Catholic University of Ecuador. [In Spanish].
Quevedo, W 2018, Somatic Cell Count (SSC), as an Indicator of Bovine Mastitis Resistance. Revista Ciencia, Tecnología e Innovación, 16: 1001-1012.
Rodrigues, L, Salgado, C, Machado, V, Alves, A, Ferreira, F & Vilela, S 2020, Garlic and oregano essential oils incorporated in cellulose acetate films: Antimicrobial activity and physical properties. Research, Society and Development, 9: e329108304-e329108304, [In Spanish].
Sánchez, J 2018, Resistencia Antibiótica A Los Agentes Causales De Mastitis En Vacas. Huancavelica, Perú: Universidad Nacional De Huancavelica.
Seratnahaei, M, Eshraghi, SS, Pakzad, P, Zahraei-Ramazani, A & Yaseri, M 2023, Antibacterial effects of bioactive metabolites extracted from Nocardia pseudobrasiliensis. Caspian Journal of Environmental Sciences, 21: 483-492.
Yerren, M & Salazar, R 2021, Antibacterial effect of essential oil Melissa officinalis (Toronjil) and Origanum vulgare (Oregano) against strains of Escherichia coli. Huancayo, Perú: Universidad Roosevelt, [In Spanish].
Younis, W, Hassan, S & Mohamed, H 2021, Molecular characterization of Escherichia Coli isolated from milk samples with regard to virulence factors and antibiotic resistance. Veterinary World, 14: 2410 - 2418. | ||
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