Histopathological changes in zebrafish exposed to sublethal concentrations of 89 nm silver nanoparticles for application in environmental diagnostics

Histopathological changes in zebrafish exposed to sublethal concentrations of 89 nm silver nanoparticles for application in environmental diagnostics

The use of biomarkers as indicators of environmental contamination has been shown to be an excellent indicator of changes in biota. Histopathological lesions are commonly used in biomonitoring studies as they provide information regarding both acute and chronic exposure. The use of nanoparticle mate...

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Bibliographic Details
Published in:Human and ecological risk assessment Vol. 26; no. 5; pp. 1207 - 1220
Main Authors: de Souza Azevedo, Juliana, Tâmisa Araújo Quintino, Marilia, Ota Rogero, Sizue, Tessari Zampieri, Maria Cristina, Rogero, José Roberto
Format: Journal Article
Language:English
Published: Boca Raton Taylor & Francis 27-05-2020
Taylor & Francis Ltd
Subjects:
Aquatic organisms
Bioaccumulation
Biomarkers
Biomonitoring
Biota
Chronic exposure
Contamination
Damage accumulation
Danio rerio
deposition
Detoxification
Ecological effects
Environmental effects
environmental health
Exposure
Gills
Hyperplasia
Lamellae
Nanoparticles
Organs
Silver
Sublethal effects
Zebrafish
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Summary:The use of biomarkers as indicators of environmental contamination has been shown to be an excellent indicator of changes in biota. Histopathological lesions are commonly used in biomonitoring studies as they provide information regarding both acute and chronic exposure. The use of nanoparticle materials has been widespread in recent years. However, not much is known about their ecological effects on the natural environment. Thus, the aim of this study was to assess the sublethal effects of silver nanoparticles (AgNP) with mean diameters of 89 nm in the zebrafish Danio rerio by the determination of the LC 50 ; 48 h and histopathological assays in gills. The obtained LC 50 ; 48 h was 8.18 µgL −1 . The histopathological gill assessment showed primary responses indicative of acute damage as aneurysms (32.76%), hyperplasia (20.69%) and partial (30.17%) and total lamellar fusion (6.9%) of secondary lamellae. No deposition of AgNP was observed in any tested sample gills, suggesting other organs target to absorption and detoxification. In fact, the AgNP causes sublethal damage in the gills of zebrafish but is not able to accumulate in this tissue. Finally, the data shown in this study contribute to the construction of a database on the AgNP exposure in aquatic organisms.
ISSN:1080-7039
1549-7860
DOI:10.1080/10807039.2018.1560219