Login / Signup

A bibliometric analysis of the recent achievements in pulmonary safety of nanoparticles.

Karina FalkiewiczIzabela FrycaKrzesimir CiuraAlicja MikołajczykKarolina JagielloTomasz Puzyn
Published in: Nanotoxicology (2023)
Assessing research activity is an important step for planning future initiatives oriented toward filling the remaining gaps in a field. Therefore, the objective of the current study was to review recently published research on pulmonary toxicity caused by nanomaterials. However, here, instead of reviewing possible toxic effects and discussing their mode of action, the goal was to establish trends considering for example examined so far nanomaterials or used testing strategies. A total of 2316 related articles retrieved from the three most cited databases (PubMed Scopus, Web of Science), selected based on the title and abstract requirements, were used as the source of the review. Based on the bibliometric analysis, the nano-meter metal oxides, and carbon-based nanotubes were identified as the most frequently studied nanomaterials, while quantum dots, which might induce possible harmful effects, were not considered so far. The majority of testing of pulmonary safety is based on in vitro studies with observed growth of the contribution of novel testing strategies, such as 3D lung model, air-liquid interface system, or omic analysis.
Keyphrases
  • pulmonary hypertension
  • quantum dots
  • randomized controlled trial
  • machine learning
  • big data
  • case control