Pyrethrum extract encapsulated in nanoparticles: Toxicity studies based on genotoxic and hematological effects in bullfrog tadpoles

Oliveira, Cristiane Ronchi de; García, Tánia; Franco‐Belussi, Lilian; Salla, Raquel Fernanda; Souza, Bruno Fernando Santos de; Melo, Nathalie Ferreira Silva de; Irazusta, Silvia Pierre; Jones-Costa, Monica; Silva-Zacarín, Elaine C.M.; Fraceto, Leonardo Fernandes

doi:10.1016/j.envpol.2019.07.037

Cited by 30 publications

(2 citation statements)

References 86 publications

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“…56 There is little research focused on the biosafety evaluation of nanoinsecticides based on botanical products. However, Oliveira et al 57,58 analyzed the effect of solid lipic nanoparticles of pyrethrum extract on anuran amphibians and honeybees, and demonstrated that they are relatively safe for these nontarget organisms. On the other hand, the ecological risk assessment of the EO alone showed discordant results.…”

Section: ■ Materials and Methodsmentioning

confidence: 99%

Optimization and Characterization of Essential Oil Nanoemulsions Using Ultrasound for New Ecofriendly Insecticides

Jesser

Yeguerman

Gili

et al. 2020

ACS Sustainable Chem. Eng.

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This study developed and evaluated the toxicological effects of new stable nanoemulsions (NEs) of peppermint essential oils (EOs) and palmarosa EO + linalyl acetate (LA) using ultrasound cavitation. Moreover, the study analyzed the effect of LA in the stabilization process of palmarosa NEs. Peppermint NEs had sizes of 34 nm and polydispersity index (PDI) values of 0.424, whereas palmarosa NEs showed sizes of 15 nm and a PDI of 0.078. Peppermint NEs were stable for 30 days and palmarosa NEs for 120 days. The insecticidal effect of NEs was also evaluated against Cx p. pipiens and Plodia interpunctella larvae. In Culex pipiens pipiens, the LC 50 values were 31.24 ppm for peppermint NEs and 32.30 ppm for palmarosa + LA NEs. In P. interpunctella, the NEs were combined with βcypermethrin and the LC 50 values were 0.12 μg larvae −1 for peppermint NEs and 0.23 μg larvae −1 palmarosa + LA NEs. In addition, the NEs showed no toxicity effect in nontarget organisms such as Artemia salina and Tenebrio molitor. Finally, viability on mammalian cell culture models was evaluated and it was also observed that NEs did not affect the cell viability after 3 and 7 days of exposure.

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Section: ■ Materials and Methodsmentioning

confidence: 99%

Optimization and Characterization of Essential Oil Nanoemulsions Using Ultrasound for New Ecofriendly Insecticides

Jesser

Yeguerman

Gili

et al. 2020

ACS Sustainable Chem. Eng.

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“…The aquatic organisms tested in toxicity research into nanopesticides include fish species (e.g., Oncorhynchus mykiss [ 115 ], Channa punctatus [ 116 ], Prochilodus lineatus [ 117 ], Danio rerio [ 118 , 119 ]), crustaceans (e.g., Daphnia magna [ 17 ], Daphnia similis [ 120 ], Leptocheirus plumulosus [ 121 ], and Ceriodaphnia dubia [ 122 ]), algae (e.g., Pseudokirchneriella subcapitata [ 120 ], Chlorella vulgaris [ 123 ], Closterium sp. [ 118 ], Lemna valdiviana [ 124 ]), and amphibians (e.g., Lithobates catesbeianus [ 125 , 126 ]). Among crustaceans, significant toxic effects were observed after exposure to Cu(OH) 2 nanopesticides [ 17 ].…”

Section: Discussionmentioning

confidence: 99%

Hazard Assessment of the Effects of Acute and Chronic Exposure to Permethrin, Copper Hydroxide, Acephate, and Validamycin Nanopesticides on the Physiology of Drosophila: Novel Insights into the Cellular Internalization and Biological Effects

Demir

Kansız

Doğan

et al. 2022

IJMS

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New insights into the interactions between nanopesticides and edible plants are required in order to elucidate their impacts on human health and agriculture. Nanopesticides include formulations consisting of organic/inorganic nanoparticles. Drosophila melanogaster has become a powerful model in genetic research thanks to its genetic similarity to mammals. This project mainly aimed to generate new evidence for the toxic/genotoxic properties of different nanopesticides (a nanoemulsion (permethrin nanopesticides, 20 ± 5 nm), an inorganic nanoparticle as an active ingredient (copper(II) hydroxide [Cu(OH)2] nanopesticides, 15 ± 6 nm), a polymer-based nanopesticide (acephate nanopesticides, 55 ± 25 nm), and an inorganic nanoparticle associated with an organic active ingredient (validamycin nanopesticides, 1177 ± 220 nm)) and their microparticulate forms (i.e., permethrin, copper(II) sulfate pentahydrate (CuSO4·5H2O), acephate, and validamycin) widely used against agricultural pests, while also showing the merits of using Drosophila—a non-target in vivo eukaryotic model organism—in nanogenotoxicology studies. Significant biological effects were noted at the highest doses of permethrin (0.06 and 0.1 mM), permethrin nanopesticides (1 and 2.5 mM), CuSO4·5H2O (1 and 5 mM), acephate and acephate nanopesticides (1 and 5 mM, respectively), and validamycin and validamycin nanopesticides (1 and 2.5 mM, respectively). The results demonstrating the toxic/genotoxic potential of these nanopesticides through their impact on cellular internalization and gene expression represent significant contributions to future nanogenotoxicology studies.

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Environmental risks and the potential benefits of nanopesticides: a review

Tang

Qin

et al. 2022

Environ Chem Lett

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Pyrethrum extract encapsulated in nanoparticles: Toxicity studies based on genotoxic and hematological effects in bullfrog tadpoles

Cited by 30 publications

References 86 publications

Optimization and Characterization of Essential Oil Nanoemulsions Using Ultrasound for New Ecofriendly Insecticides

Optimization and Characterization of Essential Oil Nanoemulsions Using Ultrasound for New Ecofriendly Insecticides

Hazard Assessment of the Effects of Acute and Chronic Exposure to Permethrin, Copper Hydroxide, Acephate, and Validamycin Nanopesticides on the Physiology of Drosophila: Novel Insights into the Cellular Internalization and Biological Effects

Environmental risks and the potential benefits of nanopesticides: a review

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