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Risk Assessment of Nanomaterials Toxicity

Regarding the increasing use of nanomaterials in almost every area of our daily life, toxicological risk assessment is one of the major requirements for their safe handling. Especially at workplaces, inhalation is the major route of exposure and potential toxicity, and effects on the lung need to be...

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Bibliographic Details
Main Author: Hartwig, Andrea
Other Authors: van Thriel, Christoph
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Solubility
Toxicity
Minimal Information
2d
Enm Interference
Nanoplates
Comet Assay
Dna Damage Signaling
Inflammation
Carbon Nanotubes
Ciliary Beating Frequency
Description Standards
Study Quality
Hazard Assessment
N/a
Air-liquid Interface
Cytokines
Sabyna
Ali-air-liquid Interface
Beas-2b
Dna Strand Breaks
Intracellular Bioavailability
Nanotoxicology
Technology: General Issues / Bicssc
Cr(vi) Release
Agglomerates
Graphene
Fadu Assay
Respiratory Tract
In Vitro Methods
Safe-by-design
Synthetic Amorphous Silica
Nm-300k
Cr2o3 Particles
Nr4a1
In Vitro Models
Gene Regulation
Cell Death Pathways
Titanium Dental Implants
Nanomaterials
Lung Toxicity
Hazard Testing
Metal-based Nanoparticles And Nanowires
Engineered Nanomaterials
In Vitro
Lung
Endocytosis
A549
Nams-new Approach Methodologies
Pulmonary Toxicity
Chromosomal Damage
Interlaboratory Comparison
Nanoparticles
Realistic Exposure In Vitro
Osteoblasts
Agglomerates And Aggregates
Titanium Dioxide
Oxidative Stress
Bronchial Epithelium
Dna Damage
Alveolar Epithelium
Tio2 Nps
Gene Expression Profiles
Advanced Materials
Cytotoxicity
Inhalation
Oxidative Reactivity
Dna Repair Proteins
3d Spheroids
Database
Quality Criteria
Genotoxicity
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
Description
Summary:Regarding the increasing use of nanomaterials in almost every area of our daily life, toxicological risk assessment is one of the major requirements for their safe handling. Especially at workplaces, inhalation is the major route of exposure and potential toxicity, and effects on the lung need to be considered. Furthermore, neurotoxicity associated with exposure to nanomaterials is a growing field of scientific investigation. However, not every single nanomaterial can be assessed in long-term animal inhalation studies, due to limited resources as well as political and societal efforts to reduce animal experiments according to the 3R principles. Thus, during the last few years, significant efforts have been dedicated to grouping nanomaterials, mainly based on advanced in vitro models. These new approach methodologies (NAMs) include detailed characterization of the respective materials in physiologically relevant media, but also more realistic exposure systems, such as co-cultures, also at the air-liquid interface, combined with comprehensive cellular investigations that provide quite detailed toxicological profiles. Thus, nanoparticles show differences in toxicity depending on their size, surface reactivity, and dissolution kinetics. Adverse cellular effects include inflammation, genotoxicity, oxidative stress, and epigenetic alterations. This Special Issue aims to highlight the recent advances in the mechanisms of nanomaterial toxicity, as well as the approaches for risk assessment, linking nanoparticle characteristics as well as in vitro toxicity to in vivo observations for advanced risk assessment.
Item Description:Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/
Physical Description:1 electronic resource (304 p.)
ISBN:books978-3-0365-7813-2
9783036578125
9783036578132

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