Along with the rapid development of nanotechnology, the bio-safety assessment of nanotechnology products, including nanomaterials, becomes more and more important. Nematode Caenorhabditis elegans (C. elegans) is a valuable model organism that has been widely used in the field of biology because of their excellent This article is protected by copyright. All rights reserved.
Accepted Articleadvantages, including low cost, small size, short life span, and highly conservative genomes with vertebral animals. In recent years, the number of nanotoxicological researches using C. elegans is persistently growing. According to these available studies, this review classified the adverse effects of nanomaterials in C. elegans into systematic, cellular and molecular toxicity, and focused on summarizing and analyzing the underlying mechanisms of metal, metal oxide and non-metallic nanomaterials causing toxic effects in C. elegans. The findings in this review provided an insight in further studies on assessing bio-safety of nanomaterials in the ecosystem using C. elegans.