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In situ imaging of microplastics in living organisms based on mass spectrometry technology
Summary
Researchers reviewed mass spectrometry-based imaging techniques for detecting microplastics inside living organisms, comparing different ion source methods for their ability to visualize plastic particles in biological tissue. They found that these techniques can provide both spatial distribution maps and chemical composition analysis of microplastics at high resolution. The study suggests that mass spectrometry imaging could become a powerful tool for understanding how microplastics accumulate and distribute within living systems.
Plastic pollution is widely present in terrestrial and aquatic ecosystems, and microplastics (MPs) can be detected in organisms. detection methods for MPs in organisms have attracted widespread attention. Traditional imaging characterization methods of MPs, including stereo microscopes and fluorescence microscopy, are typically used to image artificially added microsphere standards under laboratory conditions. However, they cannot specifically identify MPs in biological samples. Thus, there is a need for a detection technique that can provide spatial distribution information of MPs in biological samples as well as measure their quality and quantity. In this perspective, to obtain high-resolution images with chemical composition analysis, we compared ion sources for ionizing plastic macromolecules and mass analyzers for analyzing macromolecules. Matrix-assisted laser desorption/ionization (MALDI) is suitable for imaging characterization, while time-of-flight (TOF) and Orbitrap mass spectrometry are suitable for polymer mass spectrometry analysis. Furthermore, we propose a technique that combines MALDI with TOF or Orbitrap, which holds promise for the imaging of MPs in biological samples.