Abstract
In this study, we investigate the efficacy of optical photothermal infrared (O-PTIR) spectroscopy, also known as mid-infrared photothermal (MIP) microscopy, for label-free and nondestructive detection of micro- and nanoplastics (MNPs) down to diameters of 200 nm in mammalian tissues. Experiments with both in vitro three-dimensional cell cultures derived from HTC116 colorectal cancer cell line and in vivo mouse tissue models were conducted. Spherical polystyrene particles served as reliable model systems for evaluating spatial resolution limits and quality of spectra. Our findings demonstrate the superior resolution of O-PTIR in imaging individual particles of 200 nm in mouse kidney tissues, surpassing the capabilities of traditional Fourier transform infrared (FTIR) spectroscopy. Furthermore, we apply a semiautomated image analysis that incorporates machine learning algorithms to accelerate the detection process, thus improving throughput and minimizing the potential for human error. The results confirm that O-PTIR is able to provide high-quality, artifact-free spectral images in a contact-less manner and significantly outperforms traditional infrared spectroscopy in terms of spatial resolution and signal-to-noise ratio in complex biological matrices.
| Original language | English |
|---|---|
| Pages (from-to) | 16714-16722 |
| Number of pages | 9 |
| Journal | Analytical Chemistry |
| Volume | 97 |
| Issue number | 31 |
| DOIs | |
| Publication status | Published - 12 Aug 2025 |
Funding
K.D., V.P., V.Ko., L.T., V.Ka., D.W., R.Z., W.W., M.H., L.K., M.B. acknowledge the support from MicroONE, a COMET Modul under the lead of CBmed GmbH, which is funded by the federal ministries BMK and BMDW, the provinces of Styria and Vienna, and managed by the Austrian Research Promotion Agency (FFG) within the COMET\u2500Competence Centers for Excellent Technologies\u2500program. Financial support was also received from research subsidies granted by the government of Upper Austria (HIQUAMP, Wi-2021-303205/13-Au) and the Austrian Federal Ministry of Science, Research and Economy, the National Foundation for Research, Technology and Development, and the Christian Doppler Research Association, as well as Siemens Healthineers for their financial and scientific support. L.K. was also supported by a European Union Horizon 2020 Marie Sklodowska-Curie Doctoral Network grants (ALKATRAS, n. 675712; FANTOM, n. P101072735 and eRaDicate, n. 101119427) as well as BM Fonds (n. 15142), the Margaretha Hehberger Stiftung (n. 15142), the Christian-Doppler Lab for Applied Metabolomics (CDL-AM), and the Austrian Science Fund (grants FWF: P26011, P29251, P 34781 as well as the International PhD Program in Translational Oncology IPPTO 59.doc.funds). Additionally, this research was funded by the Vienna Science and Technology Fund (WWTF), grant number LS19-018, and L.K. received support from a European Union Horizon 2020 Marie Sklodowska-Curie Innovative Training Network grant (ALKATRAS). L.K. is a member of the European Research Initiative for ALK-Related Malignancies ( www.erialcl.net ).
UN SDGs
This output contributes to the following UN Sustainable Development Goals (SDGs)
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SDG 3 Good Health and Well-being
Austrian Fields of Science 2012
- 104002 Analytical chemistry
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