Prevalencia y factores de riesgo asociados a brucelosis bovina en ganaderías lecheras de la provincia del Azuay-Ecuador
Contenido principal del artículo
Resumen
Palabras Clave
Prevalence, brucellosis, enzyme linked immunoadsorbent assay, risk factors Prevalencia, brucelosis, ensayo inmunoadsorvente ligado a enzimas, factores de riesgo
Citas
Akinseye, V. y col. (2016). «Sero-epidemiological survey and risk factors associated with bovine brucellosis among slaughtered cattle in Nigeria». En: Onderstepoort Journal of Veterinary Research 83.1, 1-7. Online: https://bit.ly/3LQAZG2.
Aruho, R. y col. (2021). «A serological survey of brucellosis in wildlife in four major National Parks of Uganda». En: BMC Veterinary Research 17.1, 1-10. Online: https://bit.ly/40bOWTr.
Asgedom, H., D. Damena y R. Duguma (2016). «Seroprevalence of bovine brucellosis and associated risk factors in and around Alage district, Ethiopia». En: Springerplus 5, 1-8. Online: https://bit.ly/3FOELvP.
Assenga, J. y col. (2015). «Epidemiology of Brucella infection in the human, livestock and wildlife interface in the Katavi-Rukwa ecosystem, Tanzania». En: BMC veterinary research 11, 1-11. Online: https://bit.ly/3nlZRLu.
Awah-Ndukum, J. y col. (2018). «Seroprevalence and Associated Risk Factors of Brucellosis among Indigenous Cattle in the Adamawa and North Regions of Cameroon». En: Veterinary Medicine International.
Aznar, M. y col. (2015). «Prevalence and spatial distribution of bovine brucellosis in San Luis and La Pampa, Argentina». En: BMC Veterinary Research 11.1, 1-7. Online: https://bit.ly/40bRa5f.
Baruch, J. y col. (2020). «Analytic Sensitivity of an ELISA Test on Pooled Sera Samples for Detection of Bovine Brucellosis in Eradication Stages in Uruguay». En: Frontiers in Veterinary Science 7, 178. Online: https://bit.ly/3FIQpIM.
Berhe, G., K. Belihu e Y. Asfaw (2007). «Seroepidemiological investigation of bovine brucellosis in the extensive cattle production system of Tigray region of Ethiopia ». En: International Journal of Applied Research in Veterinary Medicine 5.2, 65. Online: https://bit.ly/40cJyzq.
Bonfini, B. y col. (2018). «Cross-reactivity in serological tests for brucellosis: a comparison of immune response of Escherichia coli O157: H7 and Yersinia enterocolitica O: 9 vs Brucella spp». En: Vet Ital 54.2, 107-114. Online: https://bit.ly/3G5RKcK.
Carbonero, A. y col. (2018). «Seroprevalence and risk factors associated with Brucella seropositivity in dairy and mixed cattle herds from Ecuador». En: Tropical animal health and production 50, 197-203. Online: https://bit.ly/40vkZ0C.
Cárdenas, C. y M. Murillo (2018). «Calidad Bacteriológica de la leche cruda en ganaderías de la provincia del Azuay». Tesis de maestría. Universidad de Cuenca.
Cárdenas, L., O. Melo y J. Casal (2018). «Evolution of bovine brucellosis in Colombia over a 7-year period (2006-2012)». En: Tropical animal health and production 50, 19-27. Online: https://bit.ly/3G42KXT.
Cárdenas, L. y col. (2019). «Risk factors for new bovine brucellosis infections in Colombian herds». En: BMC Veterinary Research 15, 1-8. Online: https://bit.ly/3Ky3QOd.
Craighead, L. y col. (2018). «Brucellosis in West and Central Africa: A review of the current situation in a changing landscape of dairy cattle systems». En: Acta tropica 179, 96-108. Online: https://bit.ly/40F6RC1.
Dal, T. y col. (2019). «Comparison of multiplex real-time polymerase chain reaction with serological tests and culture for diagnosing human brucellosis». En: Journal of Infection and Public Health 12.3, 337-342. Online: https://bit.ly/3UcbvFt.
De Blas, I, I Ruiz-Zarzuela y A Vallejo (2006). «WinEpi: Working in epidemiology. An online epidemiological tool». En: ISVEE 11: Proceedings of the 11th Symposium of the International Society for Veterinary Epidemiology and Economics.
Dorneles, E., N. Sriranganathan y A. Lage (2015). «Recent advances in Brucella abortus vaccines». En: Veterinary research 46.1, 1-10. Online: https://bit.ly/3U6W6Gl.
Ducrotoy, M. y col. (2017). «Brucellosis in Sub-Saharan Africa: Current challenges for management, diagnosis and control». En: Acta tropica 165, 179-193. Online: https://bit.ly/3MhYWGx.
Fero, E. y col. (2020). «The seroprevalence of brucellosis and molecular characterization of Brucella species circulating in the beef cattle herds in Albania». En: PloS one 15.3, e0229741. Online: https://bit.ly/40IYntH.
Franc K.and Krecek, R., B. Häsler y A. Arenas-Gamboa (2018). «Brucellosis remains a neglected disease in the developing world: a call for interdisciplinary action». En: BMC public health 18.1, 1-9. Online: https://bit.ly/40NZ19y.
Godfroid, J. y col. (2013). «Brucellosis in terrestrial wildlife ». En: Revue Scientifique et Technique. Office International des Epizooties 32.1, 27-42. Online: https://bit.ly/3UbHCoC.
Hull, N. y B. Schumaker (2018). «Comparisons of brucellosis between human and veterinary medicine». En: Infection ecology & epidemiology 8.1, 1500846. Online: https://bit.ly/3ZIbytu.
Instituto Nacional de Estadísticas y Censos (2019). Encuesta de superficie y producción agropecuaria continua ESPAC-2019.
John, K. y col. (2010). «Quantifying risk factors for human brucellosis in rural northern Tanzania». En: PloS one 5.4, e9968. Online: https://bit.ly/3UdPwxU.
Kanouté, Y. y col. (2017). «Epidemiology of brucellosis, Q fever and Rift Valley fever at the human and livestock interface in northern Côte d’Ivoire». En: Acta tropica 165, 66-75. Online: https://bit.ly/435rxVy.
Kroese, M. y col. (2018). «Brucella pinnipedialis in grey seals (Halichoerus grypus) and harbor seals (Phoca vitulina) in the Netherlands». En: Journal of wildlife diseases 54.3, 439-449. Online: https://bit.ly/411lDTr.
Kumar, A. y col. (2016). «Seroprevalence and risk factors associated with bovine brucellosis in western Uttar Pradesh, India». En: Indian journal of animal sciences 86.2, 131-135. Online: https://bit.ly/3zxcMx9.
Leclercq, S., A. Cloeckaert y M. Zygmunt (2020). «Taxonomic organization of the family Brucellaceae based on a phylogenomic approach». En: Frontiers in Microbiology 10, 3083. Online: https://bit.ly/3GiJaXY.
Ledwaba, M. y col. (2019). «Molecular characterization of Brucella species from Zimbabwe». En: PLOS Neglected Tropical Diseases 13.5, e0007311. Online: https://bit.ly/3MsDoXE.
Mainato, S. y A. Vallecillo (2017). «Seroprevalencia de la brucelosis bovina en la provincia del Cañar, Ecuador». En: Maskana 8, 25-28. Online: https://bit.ly/3KdWuye.
Matope, G. y col. (2010). «Herd-level factors for Brucella seropositivity in cattle reared in smallholder dairy farms of Zimbabwe». En: Preventive Veterinary Medicine 94.3-4, 213-221. Online: https://bit.ly/3KyFrIy.
McDermott, J. y S. Arimi (2002). «Brucellosis in sub-Saharan Africa: epidemiology, control and impact». En: Veterinary microbiology 90.1-4, 111-134. Online: https://bit.ly/3zFy63q.
Mugizi D.and Boqvist, S. y col. (2015). «Prevalence of and factors associated with Brucella sero-positivity in cattle in urban and peri-urban Gulu and Soroti towns of Uganda». En: Journal of Veterinary Medical Science 77.5, 557-564. Online: https://bit.ly/40LTbVU.
Musallam, I. y col. (2019). «Brucellosis in dairy herds: A public health concern in the milk supply chains of West and Central Africa». En: Acta tropica 197, 105042. Online: https://bit.ly/3KCjfNN.
Nardi, G. y col. (2017). «Performance of microbiological, serological, molecular, and modified seminal plasma methods in the diagnosis of Brucella abortus in semen and serum of bovine bulls». En: Biologicals 48, 6-9. Online: https://bit.ly/40IGM5i.
Nielsen, K. y col. (2004). «Serological relationship between cattle exposed to Brucella abortus, Yersinia enterocolitica O: 9 and Escherichia coli O157: H7». En: Veterinary microbiology 100.1-2, 25-30. Online: https://bit.ly/418YWwR.
OIE (2018). Manual of Diagnostic Tests and Vaccines for Terrestrial Animals. World Organization for Animal Health.
Ogugua, A. y col. (2018). «Prevalence and risk factors associated with bovine brucellosis in herds under extensive production system in southwestern Nigeria». En: Tropical animal health and production 50, 1573-1582. Online: https://bit.ly/416zU1a.
Olsen, S. yW. Stoffregen (2005). «Essential role of vaccines in brucellosis control and eradication programs for livestock». En: Expert review of vaccines 4.6, 915-928. Online: https://bit.ly/3MjqATs.
Ortega, V. y col. (2017). «Caracterización productiva de las ganaderías en los cantones occidentales de la provincia del Azuay». En: Maskana 8, 145-147. Online: https://bit.ly/4182Gic.
Pascual, D. y col. (2018). «Alternative strategies for vaccination to brucellosis». En: Microbes and infection 20.9-10, 599-605. Online: https://bit.ly/3Ke4XS1.
Poulsen, K. y col. (2014). «Brucellosis in dairy cattle and goats in northern Ecuador». En: The American Journal of Tropical Medicine and Hygiene 90.4, 712. Online: https://bit.ly/414gha4.
Rodríguez-Hidalgo, R. y col. (2015). «Circulating strains of Brucella abortus in cattle in Santo Domingo de los Tsáchilas Province–Ecuador». En: Frontiers in Public Health 3, 45. Online: https://bit.ly/3m8noQb.
Román-Cárdenas, F. y J. Luna-Herrera (2017). «Revisión actualizada de la epidemiología de Brucelosis (Brucella abortus, Brucella mellitensis, Brucella suis, Brucella canis) en el Ecuador y el mundo». En: Centro de Biotecnología 6.1, 82-93. Online: https://bit.ly/3ZGYWTy.
Ron-Román, J. y col. (2014). «Human brucellosis in northwest Ecuador: typifying Brucella spp., seroprevalence, and associated risk factors». En: Vector-Borne and Zoonotic Diseases 14.2, 124-133. Online: https://bit.ly/3KjgKyf.
Salguero, A. (2011). «Determinación De La Prevalencia Serológica De Brucelosis En Bovinos De Las Provincias De Carchi, Esmeraldas E Imbabura Y Análisis De Factores De Riesgo». Tesis de maestría. Universidad Central del Ecuador.
Sanchez, J. y col. (2020). «Seroprevalence of abortus diseases that commit the bovine reproductive efficiency in two dairy areas of chiapas». En: ESPACIO I+D, INOVACIÓN MÁS DESARROLLO 10.
Suárez-Esquivel, M. y col. (2017). «Brucella neotomae infection in humans, Costa Rica». En: Emerging Infectious Diseases 23.6, 997-1000. Online: https://bit.ly/3UiJITS.
Sussex, West (2016). Veterinary Microbiology. World Organization for Animal Health.
Vhoko, K. y col. (2018). «Estimating the prevalence of Brucellosis in cattle in Zimbabwe from samples submitted to the Central Veterinary Laboratory between 2010 and 2014». En: Vet Ital 54.1, 21-27. Online: https://n9.cl/q8pak.
Viveros, J. (2019). «Prevalencia y factores de riesgo de la brucelosis bovina en ganaderías de Imbabura que proveen leche a Floralp S.A.» Tesis de maestría. Pontificia Universidad Católica del Ecuador.
Zambrano, M., M. Pérez y X. Rodríguez (2016). «Brucelosis Bovina en la Provincia Manabí, Ecuador: Estudio de los Factores de Riesgo». En: Revista de Investigaciones Veterinarias del Perú 27.3, 607-617. Online: https://n9.cl/3wzbe.
Zheng, R. y col. (2018). «A systematic review and metaanalysis of epidemiology and clinical manifestations of human brucellosis in China». En: BioMed research international 2018. Online: https://bit.ly/3KGWeJG.