Mosquito contra mosquito: nuevas estrategias para frenar el dengue en México

Yamili Jazmín Contreras-Perera, Abdiel Agustín Martín-Park, Hugo Delfín-González, Pablo Manrique-Saide

Resumen


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Palabras clave


Aedes aegypti; dengue; control biológico; Wolbachia; técnica del insecto estéril; zonas de alta transmisión; salud pública; innovación biotecnológica

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Referencias


Ant TH, Herd CS, Geoghegan V, Hoffmann AA, Sinkins SP. 2018. The Wolbachia strain wAu provides highly efficient virus transmission blocking in Aedes aegypti. PLoS Pathog 14: e1006815.

Ant TH, Mancini MV, McNamara CJ, Rainey SM y Sinkins SP. 2023. Wolbachia-Virus interactions and arbovirus control through population replacement in mosquitoes. Pathogens and Global Health 117(3):245-258

Barrera-Pérez MA, Pavía-Ruz N, Mendoza-Mezquita JE, Torres-Arcila et al. 2015. Control de criaderos de Aedes aegypti con el programa Recicla por tu bienestar en Mérida, México. Salud Pública de México 57: 201-210.

Chen C, Aldridge RL, Gibson S, Kline J, Aryaprema V, Qualls W. 2023. Developing the radiation-based sterile insect technique (SIT) for controlling Aedes aegypti: identification of a sterilizing dose. Pest Management Science 79:1175-83.

Dame DA, Curtis CF, Benedict MQ, Robison AS, Knosl BGJ. 2009. Historical applications of induced sterilization in field populations of mosquitoes. Malaria Journal 8: S2.

Gato R, Menéndez Z, Prieto E, Argilés R, Rodríguez M, Baldoquín W. 2021, Sterile Insect Technique: Successful Suppression of an Aedes aegypti Field Population in Cuba. Insects 12: 469.

Hilgenboecker K, Hammerstein P, Schlattmann P, Telschow A, Werren JH. 2008. How many species are infected with Wolbachia? — a statistical analysis of current data. FEMS Microbiology Letters 281: 215-220.

Hoffmann AA, Ross PA, Raši? G. 2015. Wolbachia strains for disease control: ecological and evolutionary considerations. Evolutionary Applications 8: 751-68.

Manrique-Saide P, Davies CR, Coleman PG, Rebollar-Tellez E, Che-Medoza A, Dzul-Manzanilla F, Zapata-Peniche A. 2008. Pupal surveys for Aedes aegypti surveillance and potential targeted control in residential areas of Mérida, México. Journal of the American Mosquito Control Association. 24: 289-98.

Manrique-Saide P. 2023. Hacia el abordaje integral de las enfermedades transmitidas por vectores en el sur de México. Salud Pública de México. 65:109-111.

Marina CF, Liedo P, Bond JG, Osorio A, Valle J, Angulo-Kladt, R. 2022. Comparison of Ground Release and Drone-Mediated Aerial Release of Aedes aegypti Sterile Males in Southern Mexico: Efficacy and Challenges. Insects 13: 1-15.

Martín-Park A, Che-Mendoza A, Contreras-Perera Y, Pérez-Carrillo S, et al. 2022. Pilot trial using mass field-releases of sterile males produced with the incompatible and sterile insect techniques as part of integrated Aedes aegypti control in Mexico. PLOS Neglected Tropical Diseases 16: 1-23.

Martín-Park A, Contreras-Perera Y, Che-Mendoza A, Pérez-Carrillo S, et al. 2024. Recommendations for Implementing Innovative Technologies to Control Aedes aegypti: Population Suppression Using a Combination of the Incompatible and Sterile Insect Techniques (IIT-SIT), Based on the Mexican Experience/Initiative. Insects 15: 987.

National Environment Agency (NEA). 2024. Wolbachia-Aedes Mosquito Suppression StrategyFecha de consulta 20/02/2025 en https://www.nea.gov.sg/corporate-functions/resources/research/environmental_health_institute/wolbachia-aedes-mosquito-suppression-strategy

Nazni WA, Hoffmann AA, NoorAfizah A, Cheong YL, Mancini MV, Golding N, Kamarul GMR, Arif MAK, Thohir H, NurSyamimi H. 2019. Establishment of Wolbachia strain wAlbB in Malaysian populations of Aedes aegypti for Dengue control. Curr Biol 20 29: 4241–4248.e5.

Pan American Health Organization (PAHO). 2019. Handbook for Integrated Vector Management in the Americas. Washington, D.C.

Secretaría de Salud. 2025. Estrategia Nacional para el Control del Dengue y Otras Arbovirosis, 2025-2030. Centro Nacional de Programas Preventivos y Control de Enfermedades. Primera Edición.

Tur C, Almenar D, Zacarés M, Benlloch-Navarro S, Pla I, Dalmau V. 2023. Suppression Trial through an Integrated Vector Management of Aedes albopictus (Skuse) Based on the Sterile Insect Technique in a Non-Isolated Area in Spain. Insects 14: 688.

World Mosquito Program (WMP). 2025. Avances a nivel mundial. Fecha de consulta 28/02/2025 en https://www.worldmosquitoprogram.org/es/avances-nivel-mundial.

World Health Organization (WHO). 2024. 21st meeting of the Vector Control Advisory Group (VCAG). Fecha de consulta 09/03/2025 en https://cdn.who.int/media/docs/default-source/malaria/vcag-documentation/vcag-agenda-october-2024.pdf?sfvrsn=7ce98cb7_3

Wu M, Sun LV, Vamathevan J, Riegler M, Deboy R. et al. 2004. Phylogenomics of the reproductive parasite Wolbachia pipientis wMel: A streamlined genome overrun by mobile genetic elements. PLoS Biology 2(3):e69.

Xi Z, Khoo CC, Dobson SL. 2005. Wolbachia establishment and invasion in an Aedes aegypti laboratory population. Science 310: 326-328.




DOI: http://dx.doi.org/10.56369/BAC.6383

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Copyright (c) 2025 Yamili Jazmín Contreras Perera, Abdiel Agustín Martín Park, Hugo Delfín González, Pablo Manrique Saide

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Este obra está bajo una licencia de Creative Commons Reconocimiento 4.0 Internacional.

Bioagrociencias, revista electrónica, es una publicación semestral editada por la Universidad Autónoma de Yucatán, a través de la Facultad de Medicina Veterinaria y Zootecnia, km. 15.5 carretera Mérida-Xmatkuil s/n, Mérida, Yucatán, México. Tel. 999 942 32 00. Editor Responsable: Alfonso Aguilar-Perera (alfonso.aguilar@correo.uady.mx), 04-2017-062617313100-203, ISSN 2007-431X.