Surfactantless Emulsions Containing Eugenol for Imidacloprid Solubilization: Physicochemical Characterization and Toxicity against Insecticide-Resistant Cimex lectularius.

Synthetic insecticides have been used for a long time as one of the most effective tools for insect pest control. However, the re-emergence of insect pests and their fast development of resistance, as has occurred for pyrethroid-resistant bed bugs Cimex lectularius L., make it necessary to develop new and safe strategies for effective pest control. This has fostered the research on new eco-sustainable formulations based on essential oils, which allows reducing the impact associated with the intensive use of synthetic insecticides on the environment and their effects on human health. This research explores the stability of water/eugenol/ethanol surfactantless emulsions loaded with imidacloprid (0.003 wt%), and their toxicity against a resistant bed bug strain. The results have shown that these emulsions enable the solubilization of a poorly water-soluble drug, such as the imidacloprid, without any significant modification of their stability. Furthermore, the application of the obtained formulations against the pyrethroid-resistant bed bug results in mortality in the 50-85% range upon topical and spray applications, with the increase of the eugenol content enhancing the effectiveness of the formulations. It may be expected that the ternary water/eugenol/ethanol mixtures could be further developed in the preparation of ready to use formulations, enabling the dispersion of insecticides for pest control.

Silica Nanoparticles for Insect Pest Control.

To date, control strategies used against insect pest species are based on synthetic insecticide applications. In addition, the efficacy of these treatments could be decreased due to insecticide resistance in insect populations. Also, the irrational use of chemical control strategies has negative consequences of non-target organisms and threatening human health. Designing nanomaterial for pest insect control is a promising alternative to traditional insecticide formulations. In particular, it has been proven that silica nanoparticles have the potential for molecules delivery, release control improvement and also their toxicity as insecticide alone. In this work, we summarized the state of knowledge on silica nanoparticles (SiNPs) used in pest insect management. Besides, aspects of their synthesis, mode of action, and toxic effects on non-target organisms and environment are reviewed.

Evaluation of Resistance to Different Insecticides and Metabolic Detoxification Mechanism by Use of Synergist in the Common Bed Bug (Heteroptera: Cimicidae).

Bed bugs have become a common urban pest with consequences on human health and economic costs to the hotel and tourism sectors. Insecticide resistance is considered an important factor in the current bed bug resurgence, and multiple resistance mechanisms could be working in the resistant bed bug populations. In the present study, we determined the resistance profile to four insecticides with a different mode of action in Cimex lectularius L. (Heteroptera: Cimicidae) field-collected colonies from Argentina. Furthermore, the synergism effect of piperonyl butoxide (PBO) with deltamethrin was investigated to explore the contribution of detoxification metabolism to resistance. Our results showed that most of the field-collected colonies are extremely resistant to deltamethrin and propoxur, much more than to azametiphos and imidacloprid. The differences in resistance ratios among field-collected colonies could be associated with different modes of action of insecticides used in control pest and the mechanisms involved in the resistance. PBO pretreatment led to a significantly decreased RR in pyrethroid-resistant colonies, suggesting an upturn of monooxygenase activity for deltamethrin detoxification. However, the high RR detected could involve other mechanisms as part of the whole resistant phenotype in colonies of C. lectularius resistant to pyrethroids.

Pyrethroid Resistance Associated With a Decreased DEET Repellency in the Common Bed Bug (Hemiptera: Cimicidae).

The global resurgence of the bed bug (Cimex lectularius L.) and the widespread resistance of this insect to pyrethroid insecticides have created the need to find alternatives to chemical control. Thus, synthetic or natural repellents have been considered as a suitable choice to control bed bug infestations. Repellents not only keep insects away from their hosts, but also allow a decrease in insecticide selection pressure. The aim of this study was to evaluate the repellence effectivity of DEET against two bed bug colonies from Argentina (a susceptible one and a field-collected pyrethroid-resistant one), under two starving periods. We found different repellent effects of DEET on the two C. lectularius colonies and no differences between the two starving periods. In fact, DEET had a lower effect on the insecticide-resistant colony. The methodology used in this study proved to be useful to test the variation of the effect of DEET between pyrethroid-susceptible and -resistant bed bugs.