Assessing the impact of insecticide-treated nets in the face of insecticide resistance on malaria control.

The mosquito-borne disease, malaria, continues to impose a devastating health and economic burden worldwide. In malaria-endemic areas, insecticide-treated nets (ITNs) have been useful in curtailing the burden of the disease. However, mosquito resistance to insecticides, decay in ITN efficacy, net attrition, etc., undermine the effectiveness of ITNs in combatting malaria. In this study, mathematical models that account for asymptomatic infectious humans (through a partially immune class or a separate asymptomatic infectious class), insecticide resistance, and decay in ITN efficacy are proposed and analyzed. Analytical and numerical results of the models when ITN efficacy is constant show that there are parameter regimes for which a backward bifurcation occurs. Local and global sensitivity analyses are performed to identify parameters (some of which are potential targets for disease control) with the most significant influence on the control reproduction (Rc) and disease prevalence. These influential parameters include the maximum biting rate of resistant mosquitoes, ITN coverage, initial ITN efficacy against sensitive mosquitoes, the probability that an infectious mosquito (human) infects a susceptible human (mosquito), and the rate at which adult mosquitoes develop (lose) resistance to insecticides. Simulations of the models show that accounting for asymptomatic infectious humans through a separate class, or not accounting for the decay in ITN efficacy leads to an underestimation of disease burden. In particular, if the initial efficacy of ITNs against sensitive and resistance mosquitoes is 96%, the minimum ITN coverage required to reduce Rc below one (and hence, contain malaria) is approximately 11% (27%) lower when ITN efficacy is averaged (constant) for a model with a separate asymptomatic class. For the model with a partially immune class and decaying ITN efficacy, reducing Rc below one is impossible even if the entire populace uses ITNs. The study shows that replacing ITNs before their prescribed lifespans, or designing ITNs with longer lifespans is important for malaria control. Furthermore, the study shows that piperonyl butoxide (PBO) ITNs (which inhibit or reverse insecticide resistance) outperform regular ITNs in malaria control. Hence, prospects for effectively controlling malaria are enhanced by widespread use of high quality ITNs (e.g. PBO ITNs), especially if the useful lifespans of the ITNs are long enough and the ITNs are replaced before the end of their useful lifespans.

[Anopheles gambiae s.l. larval habitats and resistance mechanisms in Kribi, Cameroon]. / Habitats larvaires d'Anopheles gambiae s.l. et mécanismes de résistance à Kribi (Cameroun).

Background: The effectiveness of Long-Lasting Insecticidal Nets (LLINs) and indoor residual spraying (IRS) in controlling malaria vectors is hampered by the resistance of anopheles to insecticides. A good knowledge of the breeding sites and of the resistance profile of the vectors could facilitate the development of an appropriate control strategy. This study looks at the larval ecology and the susceptibility profile of An. gambiae s.l. to insecticides in urban and rural areas in Kribi, South Region of Cameroon. Methods: Mosquito breeding sites were categorized and geo-referenced. For each site, larvae were collected and reared and physicochemical parameters were measured in situ. The susceptibility of anopheles to dichlorodiphenyltrichloroethane (DDT), deltamethrin and permethrin, after pre-exposure to piperonyl butoxide (PBO) or not, was evaluated on the reared larvae. The Kdr mutation was detected using the Hot Oligonucleotide Ligation Assay (HOLA). Results: Natural breeding sites of An. gambiae s.l. were tyre tracks (12%, n=10), unbuilt wells (5%, n=4), pools of residual water (57%, n=48), foot and hoof prints, gullies, streams and the banks of the Kienké River (15%, n=13). Artificial breeding sites were abandoned dugouts (11%, n=9). Breeding sites in urban areas were characterized by higher mean values of temperature, conductivity, salinity and turbidity compared to the breeding sites in the rural area. The breeding sites of An. gambiae s.l. in urban Kribi were found to be sunnier than those in rural Kribi. A total of 4320 adults were used for testing, 1 440 mosquitoes from rural Kribi, 1 440 from urban Kribi and 1 440 specimens from the laboratory Kisumu strain. For DDT and deltamethrin, susceptibility tests showed that mortality was lower in a situation of no pre-exposure to PBO than in a situation of pre-exposure to PBO in the two study areas. The frequency of the resistant allele (R) was high for the Kdr West mutation in both urban (0.94) and rural areas in Kribi (0.93). Conclusion: An. gambiae s.l. colonizes a wide range of breeding sites and develops metabolic and mutation resistance to recommended insecticides. The search of alternative molecules for vector control is a necessity.

Insecticides, biologics and nematicides: Updates to IRAC's mode of action classification - a tool for resistance management.

Insecticide resistance has been and continues to be a significant problem for invertebrate pest control. As such, effective insecticide resistance management (IRM) is critical to maintain the efficacy of current and future insecticides. A technical group within CropLife International, the Insecticide Resistance Action Committee (IRAC) was established 35 years ago (1984) as an international association of crop protection companies that today spans the globe. IRAC's focus is on preserving the long-term utility of insect, mite, and most recently nematode control products through effective resistance management to promote sustainable agriculture and improved public health. A central task of IRAC has been the continual development and documentation of the Mode of Action (MoA) Classification scheme, which serves as an important tool for implementing IRM strategies focused on compound rotation / alternations. Updates to the IRAC MoA Classification scheme provide the latest information on the MoA of current and new insecticides and acaricides, and now includes information on biologics and nematicides. Details for these new changes and additions are reviewed herein.

[The common bed bug (Cimex lectularius) - biology, medical relevance, possibilities for the detection and control]. / Stenice domácí (Cimex lectularius) - biologie, zdravotnický význam, moznosti detekce a hubení.

Bed bugs have become a major concern worldwide in the 21st century and are therefore intensively investigated. The new findings not only extend the knowledge of their biology, medical relevance, and causes of the resurgence, but also can be used in bed bug management. A brief overview is provided of some of the most important research results and opinions, published in the last few years in prestigious international journals.

The adverse impact of the neonicotinoid seed treatment ban on crop protection in oilseed rape in the United Kingdom.

This paper describes the consequences of the ban on neonicotinoid seed treatments on pest management in oilseed rape. Since the ban was implemented in December 2013, there have been serious crop losses in 2014, 2015 and 2016 owing to cabbage stem flea beetles, Psylliodes chrysocephala, and aphids, Myzus persicae, which have developed resistance to the alternative pyrethroid sprays that were employed to control them. This has resulted in increased crop losses, decreased yields and a substantial decrease in the area grown, leading to fewer flowering crops available in the spring, especially in the eastern region of the United Kingdom. This is likely to have an adverse effect on bees locally. © 2016 Society of Chemical Industry.

IRAC: Mode of action classification and insecticide resistance management.

Insecticide resistance is a long standing and expanding problem for pest arthropod control. Effective insecticide resistance management (IRM) is essential if the utility of current and future insecticides is to be preserved. Established in 1984, the Insecticide Resistance Action Committee (IRAC) is an international association of crop protection companies. IRAC serves as the Specialist Technical Group within CropLife International focused on ensuring the long term efficacy of insect, mite and tick control products through effective resistance management for sustainable agriculture and improved public health. A key function of IRAC is the continued development of the Mode of Action (MoA) classification scheme, which provides up-to-date information on the modes of action of new and established insecticides and acaricides and which serves as the basis for developing appropriate IRM strategies for crop protection and vector control. The IRAC MoA classification scheme covers more than 25 different modes of action and at least 55 different chemical classes. Diversity is the spice of resistance management by chemical means and thus it provides an approach to IRM providing a straightforward means to identify potential rotation/alternation options.

Spatial distribution and esterase activity in populations of Aedes (Stegomyia) aegypti (Linnaeus) (Diptera: Culicidae) resistant to temephos

INTRODUCTION: The need for studies that describe the resistance patterns in populations of Aedes aegypti (Linnaeus) in function of their region of origin justified this research, which aimed to characterize the resistance to temephos and to obtain information on esterase activity in populations of Aedes aegypti collected in municipalities of the State of Paraíba. METHODS: Resistance to temephos was evaluated and characterized from the diagnostic dose of 0.352mg i.a./L and multiple concentrations that caused mortalities between 5% and 99%. Electrophoresis of isoenzymes was used to verify the patterns of esterase activity among populations of the vector. RESULTS: All populations of Aedes aegypti were resistant to temephos, presenting a resistance rate (RR) greater than 20. The greatest lethal dose 50% of the sample (CL50) was found for the municipality of Lagoa Seca, approximately forty-one times the value of CL50 for the Rockefeller population. The populations characterized as resistant showed two to six regions of α and β-esterase, called EST-1 to EST-6, while the susceptible population was only seen in one region of activity. CONCLUSIONS: Aedes aegypti is widely distributed and shows a high degree of resistance to temephos in all municipalities studied. In all cases, esterases are involved in the metabolism and, consequently, in the resistance to temephos. .

Impacto operacional del uso de insecticidas en larvas de Aedes aegypti en La Habana / Operational impact of the use of insecticidal products on Aedes aegypti larvae in Havana province

INTRODUCCIÓN: a pesar de los enormes esfuerzos que realiza el programa de erradicación de Aedes aegypti en Cuba, persisten en algunas regiones del país determinados índices de infestación que favorecen el desarrollo de epidemias o brotes de dengue. En este negativo indicador se destaca la provincia La Habana, donde desempeña un papel importante el uso de insecticidas. OBJETIVOS: evaluar el impacto del uso de insecticidas, por el programa de erradicación de Ae. aegypti, en el desarrollo de resistencia en esta especie en La Habana. MÉTODOS: se utilizaron 15 cepas de Ae. aegypti, procedentes de los 15 municipios de La Habana, colectados en 2008. El nivel de susceptibilidad a insecticidas se determinó mediante bioensayos recomendados por la Organización Mundial de la Salud. RESULTADOS: 60 por ciento de las cepas mostró susceptibilidad a clorpirifos; de los piretroides evaluados, se observó mayor resistencia a cipermetrina, seguido por lambdacialotrina y ciflutrina. CONCLUSIONES: el insecticida clorpirifos es un buen candidato a utilizar con los piretroides, de forma rotacional, para retardar el desarrollo de la resistencia a los piretroides en Ae. aegypti de La Habana.

INTRODUCTION: in spite of the huge efforts of the Aedes aegypti eradication program in Cuba, there are still certain infestation indexes favoring the development of outbreaks or epidemics in some regions of the country. Havana province holds a leading position in this negative indicator, in which the use of insecticides plays an important role. OBJECTIVES: to evaluate the impact of the use of insecticides in the development of drug resistance by this species in Havana. METHODS: fifteen Ae. aegypti strains from the fifteen municipalities of the province were used. They were all collected in 2008. The level of susceptibility to insecticides was measured by means of the WHO-recommended bioassays. RESULTS: sixty percent of the strains were susceptible to chlorpirifos; more resistance to pyrethroid cypermethrin was observed followed by lambdacyalothrin and cifluthrin. CONCLUSIONS: the insecticide Chlorpirifos is a good candidate to be used with pyrethroids, on a rotational scheme, to delay the development of resistance to pyrethroids in Ae. aegypti vectors in Havana province.

Impacto operacional del uso de insecticidas en larvas de Aedes aegypti en La Habana / Operational impact of the use of insecticidal products on Aedes aegypti larvae in Havana province

INTRODUCCIÓN: a pesar de los enormes esfuerzos que realiza el programa de erradicación de Aedes aegypti en Cuba, persisten en algunas regiones del país determinados índices de infestación que favorecen el desarrollo de epidemias o brotes de dengue. En este negativo indicador se destaca la provincia La Habana, donde desempeña un papel importante el uso de insecticidas. OBJETIVOS: evaluar el impacto del uso de insecticidas, por el programa de erradicación de Ae. aegypti, en el desarrollo de resistencia en esta especie en La Habana. MÉTODOS: se utilizaron 15 cepas de Ae. aegypti, procedentes de los 15 municipios de La Habana, colectados en 2008. El nivel de susceptibilidad a insecticidas se determinó mediante bioensayos recomendados por la Organización Mundial de la Salud. RESULTADOS: 60 por ciento de las cepas mostró susceptibilidad a clorpirifos; de los piretroides evaluados, se observó mayor resistencia a cipermetrina, seguido por lambdacialotrina y ciflutrina. CONCLUSIONES: el insecticida clorpirifos es un buen candidato a utilizar con los piretroides, de forma rotacional, para retardar el desarrollo de la resistencia a los piretroides en Ae. aegypti de La Habana(AU)

INTRODUCTION: in spite of the huge efforts of the Aedes aegypti eradication program in Cuba, there are still certain infestation indexes favoring the development of outbreaks or epidemics in some regions of the country. Havana province holds a leading position in this negative indicator, in which the use of insecticides plays an important role. OBJECTIVES: to evaluate the impact of the use of insecticides in the development of drug resistance by this species in Havana. METHODS: fifteen Ae. aegypti strains from the fifteen municipalities of the province were used. They were all collected in 2008. The level of susceptibility to insecticides was measured by means of the WHO-recommended bioassays. RESULTS: sixty percent of the strains were susceptible to chlorpirifos; more resistance to pyrethroid cypermethrin was observed followed by lambdacyalothrin and cifluthrin. CONCLUSIONS: the insecticide Chlorpirifos is a good candidate to be used with pyrethroids, on a rotational scheme, to delay the development of resistance to pyrethroids in Ae. aegypti vectors in Havana province(AU)

Association of insecticide use and alteration on Aedes aegypti susceptibility status

Dengue and dengue hemorrhagic fever, vector-borne diseases transmitted by the mosquito Aedes aegypti, are presently important public health problems in Brazil. As the strategy for disease control is based on vector control through the use of insecticides, the development of resistance is a threat to programs efficacy. The objective of this study was to compare the Aedes aegypti susceptibility in nine vector populations from the state of São Paulo and seven from Northeast region of Brazil, since there was a difference on group of insecticide used between the areas. Bioassays with larvae and adult were performed according to the World Health Organization methods.The results showed higher resistance levels to organophosphates group in populations from the Northeast region where this group was used for both larvae and adult control than in São Paulo where organophosphates were used for larvae and pyretroids for adult control. Resistance to pyretroids in adults was widespread in São Paulo after ten years of use of cypermethrin while in vector populations from the Northeast region it was punctual. The difference in resistance profile between the areas is in accordance to the group of insecticide used.