Toxicity of Modified Magnetite-Based Nanocomposites Used for Wastewater Treatment and Evaluated on Zebrafish (Danio rerio) Model

Guillén, Amaimen; Ardila, Yeferzon A.; Noguera, Mabel Juliana; Campaña, Ana Lucía; Bejarano, Miranda; Akle, Verónica; Osma, Johann F.

doi:10.3390/nano12030489

Cited by 10 publications

(4 citation statements)

References 48 publications

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“…Ocular and body coloration, somite development, tail detachment, heart rate, and blood circulation in the treated embryos did not change significantly from the untreated control. These findings show that none of the four concentrations tested for the benzimidazole derivatives under consideration produced embryo toxicity harm to zebrafish larvae [40] . The result of 96 hpf survival rates revealed that the compounds ( 3a , 3b , 3f , 3i , 3l , 3h , and 1a ) were significantly more hazardous to the embryos than ( 3c – e , 3g , and 3I‐k ).…”

Section: Resultsmentioning

confidence: 84%

“…These findings show that none of the four concentrations tested for the benzimidazole derivatives under consideration produced embryo toxicity harm to zebrafish larvae. [40] The result of 96 hpf survival rates revealed that the compounds (3a, 3b, 3f, 3i, 3l, 3h, and 1a) were significantly more hazardous to the embryos than (3c-e, 3g, and 3I-k). Furthermore, the toxicity of the benzimidazole derivatives used in treatment with various concentrations.…”

Section: S No Compoundsmentioning

confidence: 97%

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Facile Synthesis of Benzimidazoles via Oxidative Cyclization of Acyclic Monoterpene Aldehyde with Diamines: Studies on Antimicrobial and in Vivo Evaluation of Zebrafish

Vaithiyalingam,

Mohan Kumar,

Kamaraj

et al. 2023

Chemistry & Biodiversity

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Citral (1a), a bioactive component of Cymbopogon citratus (lemongrass) could be isolated and semi‐synthetic analogs synthesized with improved therapeutic properties. Herein we first report describes citral (1a) as a primary material for the synthesis of benzimidazole derivatives between various o‐phenylenediamines (2a–l) in the presence of Diisopropylethylamine (DIPEA) as a commercially available environmentally benign base, ethanol as a green solvent and the yield of all benzimidazole derivatives (3a–l) was between 68–76 %; The semi‐synthetically prepared benzimidazole derivatives (3a–l) were assessed for their anti‐bacterial and anti‐fungal properties. The benzimidazole compounds (3a–b, and 3g–j) exhibit good anti‐microbial activity. In addition, in silico study was carried out to determine the specific binding affinity of the diamine halogen substituted benzimidazole derivatives to the specific target proteins. In silico analysis revealed a high correlation between docking results and experimental results. Finally, benzimidazole demonstrated significant antibacterial and antifungal activity. Zebrafish embryos were subjected to In vivo toxicological test found that all of the benzimidazole compounds (3a–l) were non‐toxic and had low embryotoxicity after 96 h, with an LC50 of 36.425 μg, which could facilitate the design of novel antimicrobial agents using a cost‐effective method.

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Section: Resultsmentioning

confidence: 84%

Section: S No Compoundsmentioning

confidence: 97%

Facile Synthesis of Benzimidazoles via Oxidative Cyclization of Acyclic Monoterpene Aldehyde with Diamines: Studies on Antimicrobial and in Vivo Evaluation of Zebrafish

Vaithiyalingam,

Mohan Kumar,

Kamaraj

et al. 2023

Chemistry & Biodiversity

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“…Hu et al 78 observed that exposure to a nanocomposite affected the mortality rate and hatching rate of zebrafish embryos in dose- and time-dependent ways. 78 In zebrafish embryos, the toxicities of many other nanomaterials, such as nanocomposite nanoparticles, including ZnO NPs, 58 TiO 2 NPs, 79 copper NPs, 80 CuO NPs, 81 ZrO NPs, 82 SiO 2 NPs 83 and carbon nanotubes, 84 and magnetite based nanocomposites, 85 have been examined. Significant results include higher mortality, a lower hatching rate, and developmental abnormalities.…”

Section: Resultsmentioning

confidence: 99%

Comparative synthesis and characterization of nanocomposites using chemical and green approaches including a comparison study onin vivoandin vitrobiological properties

et al. 2023

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“…FTIR was carried out to confirm the immobilization of laccase on magnetite nanoparticles (laccase-magnetite) ( Figure 2 ). Bare magnetite exhibited two bands at 1620 and 3160 cm −1 related to the vibration of the hydroxyl groups on the surface of the magnetite ν (Fe-OH) [ 39 , 40 ]. Laccase-magnetite nanobiocomposites presented a peak at 3350 cm −1 attributed to the NH stretching vibration of laccase amines and a peak at 1080 cm −1 characteristic of the Si-O-Si bond resulting after silanization [ 39 ].…”

Section: Resultsmentioning

confidence: 99%

Treatment of Wastewater, Phenols and Dyes Using Novel Magnetic Torus Microreactors and Laccase Immobilized on Magnetite Nanoparticles

et al. 2022

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In this work, the design, manufacture, and testing of three different magnetic microreactors based on torus geometries (i.e., one-loop, two-horizontal-loop, and two-vertical-loop) is explored to increase the enzyme-based transformation of dyes by laccase bio-nanocomposites, improve the particle suspension, and promote the interaction of reagents. The laccase enzyme was covalently immobilized on amino-terminated silanized magnetite nanoparticles (laccase-magnetite). The optimal configuration for the torus microreactor and the applied magnetic field was evaluated in silico with the aid of the CFD and particle tracing modules of Comsol Multiphysics®. Eriochrome Black T (EBt) dye was tested as a biotransformation model at three different concentrations, i.e., 5 mg/L, 10 mg/L, and 20 mg/L. Phenol oxidation/removal was evaluated on artificial wastewater and real wastewater. The optimal catalytic performance of the bionanocomposite was achieved in the range of pH 4 to 4.5. A parabolic movement on the particles along the microchannels was induced by the magnetic field, which led to breaking the stability of the laminar flow and improving the mixing processes. Based on the simulation and experiments conducted with the three geometries, the two-vertical-loop microreactor demonstrated a better performance mainly due to larger dead zones and a longer residence time. Additionally, the overall dye removal efficiencies for this microreactor and the laccase-magnetite bionanocomposite were 98.05%, 93.87%, and 92.74% for the three evaluated concentrations. The maximum phenol oxidation with the laccase-magnetite treatment at low concentration for the artificial wastewater was 79.89%, while its phenol removal efficiency for a large volume of real wastewater was 17.86%. Treatments with real wastewater were carried out with a larger volume, equivalent to 200 biotransformation (oxidation) operating cycles of those carried out with dyes or phenol. Taken together, our results indicate that the novel microreactors introduced here have the potential to process wastewaters rich in contaminant dyes in continuous mode with efficiencies that are attractive for a potential large-scale operation. In this regard, future work will focus on finding the requirements for scaling-up the processes and evaluating the involved environmental impact indexes, economic performance, and different device geometries and processing schemes.

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Toxicity of Modified Magnetite-Based Nanocomposites Used for Wastewater Treatment and Evaluated on Zebrafish (Danio rerio) Model

Cited by 10 publications

References 48 publications

Facile Synthesis of Benzimidazoles via Oxidative Cyclization of Acyclic Monoterpene Aldehyde with Diamines: Studies on Antimicrobial and in Vivo Evaluation of Zebrafish

Facile Synthesis of Benzimidazoles via Oxidative Cyclization of Acyclic Monoterpene Aldehyde with Diamines: Studies on Antimicrobial and in Vivo Evaluation of Zebrafish

Comparative synthesis and characterization of nanocomposites using chemical and green approaches including a comparison study onin vivoandin vitrobiological properties

Treatment of Wastewater, Phenols and Dyes Using Novel Magnetic Torus Microreactors and Laccase Immobilized on Magnetite Nanoparticles

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