Database of veterinary systematic reviews
Science of the Total Environment (2021) 769:
DOI: 10.1016/j.scitotenv.2020.144354
The nanotechnology enabled the development of nanomaterials (NMs) with a variety of industrial, biomedical, and consumer applications. However, the mechanism of action (MoA) and toxicity of NMs remain unclear, especially in the male reproductive system. Thus, this study aimed to perform a bibliometric and systematic review of the literature on the toxic effects of different types of NMs on the male reproductive system and function in mammalian models. A series of 236 articles related to the in vitro and in vivo reproductive toxicity of NMs in mammalian models were analyzed. The data concerning the bioaccumulation, experimental conditions (types of NMs, species, cell lines, exposure period, and routes of exposure), and the MoA and toxicity of NMs were summarized and discussed. Results showed that this field of research began in 2005 and has experienced an exponential increase since 2012. Revised data confirmed that the NMs have the ability to cross the blood-testis barrier and bioaccumulate in several organs of the male reproductive system, such as testis, prostate, epididymis, and seminal vesicle. A similar MoA and toxicity were observed after in vitro and in vivo exposure to NMs. The NM reproductive toxicity was mainly related to ROS production, oxidative stress, DNA damage and apoptosis. In conclusion, the NM exposure induces bioaccumulation and toxic effects on male reproductive system of mammal models, confirming its potential risk to human and environmental health. The knowledge concerning the NM reproductive toxicity contributes to safety and sustainable use of nanotechnology.
Souza, M. R., Mazaro-Costa, R., & Rocha, T. L. (2021). Can nanomaterials induce reproductive toxicity in male mammals? A historical and critical review. Science of the Total Environment, 769. https://doi.org/10.1016/j.scitotenv.2020.144354 oxidative stress, apoptosis, DNA, literature reviews, models, testes, toxicity, bioaccumulation, environmental health, exposure, nanomaterials, reactive oxygen species, prostate, DNA damage, cell lines, spermatozoa, human health, DNA modification, epididymis, vesicular gland