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Nanotoxicology in Caenorhabditis elegans / by Dayong Wang.
- Format:
- Book
- Author/Creator:
- Wang, Dayong, author.
- Language:
- English
- Subjects (All):
- Medicine.
- Pharmacology.
- Nanochemistry.
- Cytology.
- Invertebrates.
- Biomedicine.
- Pharmacology/Toxicology.
- Cell Biology.
- Local Subjects:
- Biomedicine.
- Pharmacology/Toxicology.
- Nanochemistry.
- Cell Biology.
- Invertebrates.
- Physical Description:
- 1 online resource (X, 274 pages) : 123 illustrations, 103 illustrations in color
- Contained In:
- Springer eBooks
- Place of Publication:
- Singapore : Springer Singapore : Imprint: Springer, 2018.
- System Details:
- text file PDF
- Summary:
- This book focuses on the toxicity of engineered nanomaterials (ENMs) and their underlying physicochemical, cellular, physiological, and molecular mechanisms. Further, it covers ENMs' translocation and their targeted organ toxicology, and discusses chemical and pharmacological strategies used to combat nanotoxicity. Engineered nanomaterials (ENMs) are defined as materials with one or more dimensions of less than 100 nm, and have shown considerable promise in several areas of development. At the same time, the potential toxicity of ENMs for human health and environmental organisms is increasingly attracting attention. In addition to the typical properties of model animals, Caenorhabditis elegans is extremely sensitive to environmental toxicants, which makes it the ideal in vivo assay system for toxicological studies. C. elegans has been widely used in toxicity assessment and toxicological studies of environmental toxicants and stresses. This book provides a comprehensive summary of nanotoxicology research on C. elegans.
- Contents:
- Values of C. elegans in Toxicological Study
- Endpoints for Toxicity Assessment of Nanomaterials
- Exposure Routes of Nanomaterials
- Toxic Effects of Certain Nanomaterials
- Physicochemical Basis for Nanotoxicity Formation
- Cellular and Physiological Mechanisms of Nanotoxicity Formation
- Molecular Mechanisms of Nanotoxicity Formation
- Distribution and Translocation of Nanomaterials
- Confirmation of Nanomaterials with Low-Toxicity or Non-Toxicity Property
- Surface Chemical Modification to Reduce the Toxicity of Nanomaterials
- Pharmacological Prevention of the Toxicity Induced by Environmental Nanomaterials.
- Other Format:
- Printed edition:
- ISBN:
- 9789811302336
- Access Restriction:
- Restricted for use by site license.
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