Adoption of in vitro systems and zebrafish embryos as alternative models for reducing rodent use in assessments of immunological and oxidative stress responses to nanomaterials

@article{Johnston2018AdoptionOI,
  title={Adoption of in vitro systems and zebrafish embryos as alternative models for reducing rodent use in assessments of immunological and oxidative stress responses to nanomaterials},
  author={Helinor Jane Johnston and Rachel Verdon and Suzanne L Gillies and David M. Brown and Teresa F. Fernandes and Theodore Burdick Henry and Adriano G Rossi and Lang Tran and Carl S. Tucker and Charles R. Tyler and Vicki Stone},
  journal={Critical Reviews in Toxicology},
  year={2018},
  volume={48},
  pages={252 - 271}
}
Abstract Assessing the safety of engineered nanomaterials (NMs) is paramount to the responsible and sustainable development of nanotechnology, which provides huge societal benefits. Currently, there is no evidence that engineered NMs cause detrimental health effects in humans. However, investigation of NM toxicity using in vivo, in vitro, in chemico, and in silico models has demonstrated that some NMs stimulate oxidative stress and inflammation, which may lead to adverse health effects… 
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The studies using zebrafish for toxicological and biodistribution testing of nanoparticles, and also the possibilities for their preclinical evaluation in various diseases, including cancer and autoimmune, neuroinflammatory, and infectious diseases are reviewed.
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Various kinds of toxicities induced in zebrafish embryos by different kinds of nanoparticles are described, which determine nanomaterials' effects, which can be modulated or further mitigated to create a positive impact on living organisms.
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The Current Understanding of Autophagy in Nanomaterial Toxicity and Its Implementation in Safety Assessment-Related Alternative Testing Strategies
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The development of a tiered testing strategy for NM hazard assessment not only promotes a more widespread adoption of non-rodent or 3R principles but also makes nanotoxicology testing more ethical, relevant, and cost- and time-efficient.
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Toward Rigorous Materials Production: New Approach Methodologies Have Extensive Potential to Improve Current Safety Assessment Practices.
TLDR
An innovation funnel enriched with safety methods is ultimately proposed under the central aim of promoting rigorous nanomaterials innovation, including guidance to the selection of specific NAMs in the eight categories.
Acetaminophen affects the survivor, pigmentation and development of craniofacial structures in zebrafish (Danio rerio) embryos.
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