Costo del control de Aedes aegypti en la Amazonía peruana / Cost of controlling the dengue vector Aedes aegypti in the Peruvian amazon

RESUMEN Objetivo. Estimar los costos incurridos en el control del Aedes aegypti en la región Loreto, en los años 2017 y 2018. Materiales y métodos. Se realizó una evaluación económica retrospectiva parcial de los costos del control del Aedes aegypti de la Dirección Regional de Salud Loreto, durante la ejecución del Plan Regional de Vigilancia y Control de Aedes aegypti. Se revisó documentación como planes, informes de intervenciones y planillas de pago y se realizaron entrevistas al personal profesional implicado en el control vectorial, sobre los costos de las intervenciones de control. Resultados. Se halló, que los costos incurridos en el control del vector del dengue en la Región Loreto en los dos años estudiados ascienden a: 3,807,858 PEN y 4,066,380 PEN durante el 2017 y 2018, respectivamente (1´175,264 USD y 1´1210,232 USD al tipo de cambio del 2017 y 2018). Sin embargo, el efecto de las actividades de control es de corta duración. Conclusiones. El alto costo que implica el control vectorial con los métodos usados actualmente y la corta duración de su efecto lo hace insostenible. Se deben realizar estudios para hallar otros métodos más eficientes para el control del dengue.

ABSTRACT Objective. To estimate the costs incurred in the control of Aedes aegypti in the Loreto region, during the years 2017 and 2018. Materials and methods. We conducted a partial retrospective economic evaluation of the costs of Aedes aegypti control of the Regional Health Directorate Loreto, during the implementation of the Regional Plan for Surveillance and Control of Aedes aegypti. Documentation such as plans, intervention reports and payment slips were reviewed, and interviews were conducted with professional personnel involved in vector control, on the costs of control interventions. Results. We found that the costs incurred in dengue vector control in the Loreto Region in the two years were: PEN 3,807,858 and PEN 4,066,380 during 2017 and 2018, respectively (USD 1,175,264 and USD 1,1210,232 at the 2017 and 2018 exchange rate). However, the effect of control activities is short-lived. Conclusions. The high cost involved in vector control with the methods currently used and the short duration of its effect make it unsustainable. Studies should be conducted in order to find other more efficient methods for dengue control.

Primer registro de Aedes vittatus en la provincia de Santiago de Cuba / First record of Aedes vittatus in Santiago de Cuba province

Aedes vittatus, vector que transmite el virus de la fiebre amarilla, el dengue, el zika y el chikungunya, se detectó por primera vez en enero de 2020 en la localidad de Ramón de las Yaguas del municipio Santiago de Cuba, lo que constituyó el primer registro en la provincia del mismo nombre. Este hallazgo significó una alerta para el resto del país y conllevó a investigar sobre su bioecología y competencia vectorial. A tales efectos se realizó el presente estudio con el objetivo de informar lo relacionado con la presencia de esta especie invasora, la distribución espacial y los sitios de cría para adoptar decisiones preventivas y de control.

Aedes vittatus, vector that transmits the yellow fever virus, dengue, zika and chikungunya, was detected for the first time in January, 2020 in the town of Ramón de las Yaguas town from Santiago de Cuba municipality, what constituted the first record in the province with the same name. This finding meant an alert for the rest of the country and led to investigate on its bioecology and vectorial competence. To such effects the present study was carried out with the objective of informing everything related to the presence of this invading species, the space distribution and breeding sites to adopt preventive and control decisions.

Susceptibilidad de diferentes estadios larvarios de Aedes albopictus (S) (Diptera: Culicidae) a la infección por dos especies de nematodos mermítidos en condiciones de laboratorio / Sensitivity of different larval stages of Aedes albopictus (S) (Diptera: Culicidae) to infection by two species of mermithids nematodes in laboratory conditions

Introducción: La combinación de insecticidas, la reducción de criaderos y el control biológico se proponen como una alternativa para el control de culícidos. Los nematodos entomoparásitos, Romanomermis iyengari y Strelkovimermis spiculatus, han sido empleados con éxito en estudios de laboratorio y campo, pero aún no se han evaluado en Cuba contra larvas de Aedes albopictus, mosquito vector de dengue, chikungunya, zika y otras arbovirosis. Objetivo: Determinar la susceptibilidad de tres estadios larvales deAe. albopictus a la infección de R. iyengari y S. spiculatus en condiciones de laboratorio. Métodos: Se aplicó una dosis de 7:1 (preparásitos/larva) a 100 larvas de Ae. albopictus en diferentes estadios de desarrollo (I, II y III). Después de 96 h de la posinfección, se tomaron al azar 30 larvas y se disectaron para determinar la intensidad y frecuencia de la infección. Cada estadio larval de Ae. albopictus por especie de nematodo, constó de 12 réplicas y se colocaron controles. Resultados: S. spiculatus mostró mayor frecuencia de la infección en los estadios larvales estudiados (97,22 por ciento; 96,66 por ciento y 73,33 por ciento) que R. iyengari (90,27 por ciento; 83,61 por ciento y 57,22 por ciento), mientras que la intensidad de la infección por estadios fue de 2,54; 2,44 y 1,55 para S. spiculatus y 2,39; 2,46 y 1,97 para R. iyengari. Conclusiones: Aunque S. spiculatus fue superior a R. iyengari, con mayores valores de frecuencia de infección en los tres estadios, ambas especies demostraron ser buenos candidatos como agentes de biocontrol de Ae. Albopictus; se recomiendan estudios posteriores antes de su uso en condiciones naturales(AU)

Introduction: The combination of safe insecticides for the environment, breeding sites´ reduction and biological control is proposed as a promising approach for Culicids control. The enthomoparasites nematodes Romanomermis iyengari and Strelkovimermis spiculatus have been used successfully in laboratory and field studies, but haven't been evaluated yet in Cuba against Aedes albopictus larvae. This mosquito species constitutes a vector of dengue, chikungunya, zika and other arboviruses. Objective: To determine the sensitivity of three larval stages ofAe. albopictus to the infection of R. iyengari and S. spiculatus in laboratory conditions. Methods: A dose of 7: 1 (preparasitics / larva) was applied to 100 larvae of Ae. albopictus in different stages of development (I, II and III). 96 hours after the post-infection, 30 larvae were taken at random and dissected to determine the intensity and frequency of the infection. Each Ae. Albopictus larval stage had twelve replicas by stages and controls were made to them. Results: S. spiculatus showed higher frequency of infection in the larval stages studied (97.22 percent, 96.66 percent and 73.33 percent) than R. iyengari (90.27 percent, 83.61 percent and 57.22 percent), while the intensity of infection by stages was 2.54; 2.44 and 1.55 for S.spiculatus and 2.39; 2.46 and 1.97 for R.iyengari. Conclusions: Although S. spiculatus was superior to R. iyengari, with higher values of infection frequency in the three stages, both species proved to be good candidates as bio-control agents of Ae. albopictus and subsequent studies are recommended before use in natural conditions(AU)

Pathogen-insect interaction candidate molecules for transmission-blocking control strategies of vector borne diseases / Moléculas candidatas para el control de enfermedades transmitidas por vector mediante el bloqueo de interacciones patógeno-insecto

Abstract: Objective: To analyze the current knowledge of pathogen-insect interactions amenable for the design of molecular-based control strategies of vector-borne diseases. Materials and methods: We examined malaria, dengue, and Chagas disease pathogens and insect molecules that participate in interactions during their vectors infection. Results: Pathogen molecules that participate in the insect intestine invasion and induced vector immune molecules are presented, and their inclusion in transmission blocking vaccines (TBV) and in genetically modify insect (GMI) vectors or symbiotic bacteria are discussed. Conclusion: Disruption of processes by blocking vector-pathogen interactions provides several candidates for molecular control strategies, but TBV and GMI efficacies are still limited and other secondary effects of GMI (improving transmission of other pathogens, affectation of other organisms) should be discarded.

Resumen: Objetivo: Analizar el conocimiento actual de las interacciones patógeno-insecto susceptibles a incluirse en el diseño de estrategias moleculares para el control de enfermedades transmitidas por vectores. Material y métodos: Se examinaron los agentes causales de la malaria, el dengue y la enfermedad de Chagas, y las moléculas de insectos que participan en interacciones durante la infección de sus vectores. Resultados: Se presentan moléculas de patógenos que participan en la invasión del intestino del insecto y moléculas inmunes inducidas en los vectores. Se discute su inclusión en vacunas bloqueadoras de transmisión (VBT) y en la modificación genética de vectores (MGI) o de sus bacterias simbióticas. Conclusión: La interrupción de procesos mediante el bloqueo de las interacciones patógeno-vector proporciona varios candidatos para las estrategias de control molecular, pero la eficacia de VBT y MGI es aún limitada y los efectos secundarios de MGI (aumento de la transmisión de otros patógenos y afectación de otros organismos) deben descartase.

Cost of microbial larviciding for malaria control in rural Tanzania.

OBJECTIVE: Microbial larviciding may be a potential supplement to conventional malaria vector control measures, but scant information on its relative implementation costs and effectiveness, especially in rural areas, is an impediment to expanding its uptake. We perform a costing analysis of a seasonal microbial larviciding programme in rural Tanzania. METHODS: We evaluated the financial and economic costs from the perspective of the public provider of a 3-month, community-based larviciding intervention implemented in twelve villages in the Mvomero District of Tanzania in 2012-2013. Cost data were collected from financial reports and invoices and through discussion with programme administrators. Sensitivity analysis explored the robustness of our results to varying key parameters. RESULTS: Over the 2-year study period, approximately 6873 breeding sites were treated with larvicide. The average annual economic costs of the larviciding intervention in rural Tanzania are estimated at 2014 US$ 1.44 per person protected per year (pppy), US$ 6.18 per household and US$ 4481.88 per village, with the larvicide and staffing accounting for 14% and 58% of total costs, respectively. CONCLUSIONS: We found the costs pppy of implementing a seasonal larviciding programme in rural Tanzania to be comparable to the costs of other larviciding programmes in urban Tanzania and rural Kenya. Further research should evaluate the cost-effectiveness of larviciding relative to, and in combination with, other vector control strategies in rural settings.

Perfil de susceptibilidad a temefos en poblaciones de aedes aegypti (diptera: culicidae) de ciudad del este - alto Paraná, Paraguay / Aedes aegypti (díptera-culicidae) susceptibility to temephos in ciudad del este, alto Paraná, Paraguay

En Paraguay, el control del mosquito Aedes aegypti involucrado en la transmisión de varias arbovirosis implica la utilización del Temefos, un organofosforado que ha sido utilizado por los programas nacionales para el control vectorial por más de dos décadas en busca de la reducción de los estadios larvarios. En vista de la necesidad de evaluar periódicamente la actividad larvicida del compuesto químico mencionado, este estudio tuvo como objetivo monitorear el perfil de susceptibilidad de larvas de Ae. aegypti al Temefos. Para ello se aplicó un estudio analítico experimental con ensayos biológicos tipo dosis - respuesta, utilizando larvas del tercer estadio de la primera generación procedentes de una colonia de mosquitos colectada en Ciudad del Este. Las larvas fueron expuestas a la acción del Temefos a diferentes concentraciones definidas por un pre- test. Se registraron valores correspondientes al número de larvas expuestas y mortalidad al término de cada ensayo. Los resultados fueron concentración letal CL50 = 0,00966 mg/L y CL90 = 0,03015mg/L, a partir de estos valores se obtuvieron los indicadores cuantitativos de resistencia, Razón de resistencia RR50 = 2,3734 y RR90 = 4,1643 respectivamente. Este último es un indicativo de resistencia baja en las poblaciones de Ae. aegypti evaluadas, acorde con rangos estandarizados (RR>3<5). Los resultados observados en las poblaciones silvestres de larvas revelan una situación de alerta, considerando que el presente estudio evidenció un proceso de resistencia incipiente al Temefos. Finalmente, basados en los resultados se recomienda plantear y ejecutar estrategias basadas en acciones que permitan preservar la actividad larvicida de este compuesto, evitando el aumento progresivo de resistencia en las poblaciones silvestres.

In Paraguay, the control of Aedes aegypti mosquitoes, involved in the transmission of several arboviruses, implies the use of temephos, an organophosphate that has been used by national vector control programs for more than two decades in search of reducing larval stages. In view of the need to evaluate periodically the larvicidal activity of this chemical compound, this study aimed to monitor the susceptibility profile to temephos of larval stages of Ae. aegypti. For this, an experimental analytical study with bioassays dose rate –response was applied, using third instar larva e of the first generation from a mosquitoescolony collected in Ciudad del Este. The larvae were exposed to different concentrations ranges of themephos that were defined by a pre-test. The number of larva e exposed and mortality at the end of each trial were recorded. The results determined the LC50 =0.00966 mg/L and LC90 = 0.03015 mg/L, from which quantitative indicators of resistance were obtained, resistance ratio RR = 2.3734 and 4.1643 respectively. The latter valueindicates characteristics related to low resistance in populations of Ae. aegypti evaluateda ccording to standardized ranges (RR> 3 <5). The results observed in larval wild populations indicate an alert situation, considering that our study showed an incipient process of resistance to temephos. Finally, based on these results, proposing and implementing strategies based in actions that allow to preserve the larvicidal activity of this compound are recommended to avoiding the progressive increase of resistance in wild populations.

Incremental cost of implementing residual insecticide treatment with delthametrine on top of intensive routine Aedes aegypti control.

OBJECTIVE: Information on the cost of implementing residual insecticide treatment (RIT) for Aedes control is scarce. We evaluated the incremental cost on top of intensive conventional routine activities of the Aedes control programme (ACP) in the city of Santiago de Cuba, Cuba. METHODS: We conducted the cost analysis study in 2011-2012, from the perspective of the ACP. Data sources were bookkeeping records, activity registers of the Provincial ACP Centre and the accounts of an RIT implementation study in 21 clusters of on average four house blocks comprising 5180 premises. RESULTS: The annual cost of the routine ACP activities was 19.66 US$ per household. RIT applications in rounds at 4-month intervals covering, on average, 97.2% and using 8.5 g of delthametrine annually per household, cost 3.06 US$ per household per year. Delthametrine comprised 66.5% of this cost; the additional cost for deploying RIT comprised 15.6% of the total ACP routine cost and 27% of the cost related to routine adult stage Aedes control. CONCLUSIONS: The incremental cost of implementing RIT is high. It should be weighed against the incremental effect on the burden caused by the array of pathogens transmitted by Aedes. The cost could be reduced if the insecticide became cheaper, by limiting the number of yearly applications or by targeting transmission hot spots.

Efficacy and community effectiveness of larvivorous fish for dengue vector control.

OBJECTIVE: To evaluate the efficacy and community effectiveness of larvivorous fish for the control of dengue vectors and dengue transmission, when used as a single agent or in combination with other vector control methods. METHOD: Comprehensive literature search of published and grey literature using PubMed, EMBASE (DMDI), Web of Science, WHOLIS, WILEY, LILACS, GIFT, Cochrane Library, ELDIS, New York Academy of Medicine Grey Literature Report and Google. All results were checked for duplicates and examined for eligibility. Methodological quality of the studies was assessed using RoBANS. RESULTS: Thirteen articles were considered eligible for inclusion. Incorporating a wide range of interventions and outcome measures, three were efficacy studies and 10 assessed community effectiveness. None of the studies were randomised or cluster-randomised controlled trials. All three efficacy studies and seven community effectiveness studies investigated fish as a single agent. All efficacy studies reported elimination of Aedes larvae from treated containers, while community effectiveness studies reported reductions in immature vector stages, two of which also detected a continuous decline over 2 years. An impact on adult mosquitoes was shown in only two community effectiveness studies. Reductions in dengue cases following intervention were reported in two studies, but it was not possible to attribute this to the intervention. CONCLUSION: While the use of larvivorous fish as a single agent or in combination with other control measures could lead to reductions in immature vector stages, considerable limitations in all the studies restricted any conclusions with respect to the evaluation of community effectiveness. Evidence for the community effectiveness of larvivorous fish as a single agent remains minimal and cluster-randomised controlled studies that include the assessment of impact on dengue are recommended.

Community effectiveness of copepods for dengue vector control: systematic review.

OBJECTIVE: Vector control remains the only available method for primary prevention of dengue. Several interventions exist for dengue vector control, with limited evidence of their efficacy and community effectiveness. This systematic review compiles and analyses the existing global evidence for community effectiveness of copepods for dengue vector control. METHODS: The systematic review follows the PRISMA statement, searching six relevant databases. Applying all inclusion and exclusion criteria, 11 articles were included. RESULTS: There is evidence that cyclopoid copepods (Mesocyclops spp.) could potentially be an effective vector control option, as shown in five community effectiveness studies in Vietnam. This includes long-term effectiveness for larval and adult control of Ae. aegypti, as well as dengue incidence. However, this success has so far not been replicated elsewhere (six studies, three community effectiveness studies--Costa Rica, Mexico and USA, and three studies analysing both efficacy and community effectiveness--Honduras, Laos and USA), probably due to community participation, environmental and/or biological factors. Judging by the quality of existing studies, there is a lack of good study design, data quality and appropriate statistics. CONCLUSION: There is limited evidence for the use of cyclopoid copepods as a single intervention. There are very few studies, and more are needed in other communities and environments. Clear best practice guidelines for the methodology of entomological studies should be developed.

Nodding syndrome since 2012: recent progress, challenges and recommendations for future research.

We aim to review the current epidemiology of nodding syndrome (NS) and discuss relevant gaps in research. NS and convulsive epilepsy of unknown aetiology are clustered within the same villages and families in onchocerciasis-endemic areas. They are therefore potentially different clinical expressions of the same disease. It has been difficult to perform full autopsies on NS patients who die in remote villages. Adequate fixation of tissue immediately after death is critical for the examination of brain tissue. Therefore, post-mortem transsphenoidal brain biopsies, performed immediately after death by trained nurses, will provide the best option for obtaining tissue for analysis. We suspect that certain blackflies in onchocerciasis-endemic areas may transmit a novel pathogen that could cause NS and epilepsy. This is supported by a recent drop in the number of new NS cases coinciding with vector control activities aimed at reducing blackfly populations in northern Uganda. We propose that metagenomic studies of human samples, blackflies and microfilariae are conducted to screen for pathogens, and that a clinical trial is planned to evaluate the impact of larviciding against NS and epilepsy epidemics.