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Imperative role of electron microscopy in toxicity assessment: A review

Microscopy Research and Technique 2021 15 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Divya Jyoti, Aseem Grover, Caterina Faggio Reshma Sinha, Reshma Sinha, Caterina Faggio Caterina Faggio Caterina Faggio Reshma Sinha, Reshma Sinha, Divya Jyoti, Reshma Sinha, Reshma Sinha, Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Reshma Sinha, Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio

Summary

This review covers the role of electron microscopy in toxicity assessment, describing how advances in scanning and transmission EM have enabled characterization of nanomaterials, drug-cell interactions, and micro- and nanoplastic particles in biological tissues.

Electron microscope (EM) was developed in 1931 and since then microscopical examination of both the biological and non-biological samples has been revolutionized. Modifications in electron microscopy techniques, such as scanning EM and transmission EM, have widened their applicability in the various sectors such as understanding of drug toxicity, development of mechanism, criminal site investigation, and characterization of the nano-molecule. The present review summarizes its role in important aspects such as toxicity assessment and disease diagnosis in special reference to SARS-COV2. In the biological system, EM studies have elucidated the impact of toxicants at the ultra-structural level in various tissue in conformity to physiological alterations. Thus, EM can be concluded as an important tool in toxicity assessment and disease prognosis.

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