posted on 2023-09-14, 03:13authored byTobias Hulleman, Viktoriia Turkina, Jake W. O’Brien, Aleksandra Chojnacka, Kevin V. Thomas, Saer Samanipour
Non-targeted analysis
(NTA) has emerged as a valuable approach
for the comprehensive monitoring of chemicals of emerging concern
(CECs) in the exposome. The NTA approach can theoretically identify
compounds with diverse physicochemical properties and sources. Even
though they are generic and have a wide scope, non-targeted analysis
methods have been shown to have limitations in terms of their coverage
of the chemical space, as the number of identified chemicals in each
sample is very low (e.g., ≤5%). Investigating the chemical
space that is covered by each NTA assay is crucial for understanding
the limitations and challenges associated with the workflow, from
the experimental methods to the data acquisition and data processing
techniques. In this review, we examined recent NTA studies published
between 2017 and 2023 that employed liquid chromatography–high-resolution
mass spectrometry. The parameters used in each study were documented,
and the reported chemicals at confidence levels 1 and 2 were retrieved.
The chosen experimental setups and the quality of the reporting were
critically evaluated and discussed. Our findings reveal that only
around 2% of the estimated chemical space was covered by the NTA studies
investigated for this review. Little to no trend was found between
the experimental setup and the observed coverage due to the generic
and wide scope of the NTA studies. The limited coverage of the chemical
space by the reviewed NTA studies highlights the necessity for a more
comprehensive approach in the experimental and data processing setups
in order to enable the exploration of a broader range of chemical
space, with the ultimate goal of protecting human and environmental
health. Recommendations for further exploring a wider range of the
chemical space are given.