ICaenorhabditis elegans/I as a Prediction Platform for Nanotechnology-Based Strategies: Insights on Analytical Challenges

Nanotechnology-based strategies have played a pivotal role in innovative products in different technological fields, including medicine, agriculture, and engineering. The redesign of the nanometric scale has improved drug targeting and delivery, diagnosis, water treatment, and analytical methods. Al...

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Veröffentlicht in:	Toxics (Basel) 2023-03, Vol.11 (3)
Hauptverfasser:	Gubert, Priscila, Gubert, Greici, Oliveira, Ronei Cardoso de, Fernandes, Isabel Cristina Oliveira, Bezerra, Iverson Conrado, Ramos, Bruna de, Lima, Milena Ferreira de, Rodrigues, Daniela Teixeira, Cruz, Adriana Farias Nunes da, Pereira, Ernesto Chaves, Ávila, Daiana Silva, Mosca, Dante Homero
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Sprache:	eng
Schlagworte:	Caenorhabditis elegans Evaluation Methods Nanotechnology Toxicity testing
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creator	Gubert, Priscila Gubert, Greici Oliveira, Ronei Cardoso de Fernandes, Isabel Cristina Oliveira Bezerra, Iverson Conrado Ramos, Bruna de Lima, Milena Ferreira de Rodrigues, Daniela Teixeira Cruz, Adriana Farias Nunes da Pereira, Ernesto Chaves Ávila, Daiana Silva Mosca, Dante Homero
description	Nanotechnology-based strategies have played a pivotal role in innovative products in different technological fields, including medicine, agriculture, and engineering. The redesign of the nanometric scale has improved drug targeting and delivery, diagnosis, water treatment, and analytical methods. Although efficiency brings benefits, toxicity in organisms and the environment is a concern, particularly in light of global climate change and plastic disposal in the environment. Therefore, to measure such effects, alternative models enable the assessment of impacts on both functional properties and toxicity. Caenorhabditis elegans is a nematode model that poses valuable advantages such as transparency, sensibility in responding to exogenous compounds, fast response to perturbations besides the possibility to replicate human disease through transgenics. Herein, we discuss the applications of C. elegans to nanomaterial safety and efficacy evaluations from one health perspective. We also highlight the directions for developing appropriate techniques to safely adopt magnetic and organic nanoparticles, and carbon nanosystems. A description was given of the specifics of targeting and treatment, especially for health purposes. Finally, we discuss C. elegans potential for studying the impacts caused by nanopesticides and nanoplastics as emerging contaminants, pointing out gaps in environmental studies related to toxicity, analytical methods, and future directions.
doi_str_mv	10.3390/toxics11030239
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subjects	Caenorhabditis elegans Evaluation Methods Nanotechnology Toxicity testing
title	ICaenorhabditis elegans/I as a Prediction Platform for Nanotechnology-Based Strategies: Insights on Analytical Challenges
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