Impact of e‐cigarette liquid on porcine lung tissue—Ex vivo confocal Raman micro‐spectroscopy study

Ex vivo porcine lung immersed in e‐liquid was investigated in‐depth using confocal Raman micro‐spectroscopy to assess the e‐liquid influence on the lung. It was found that lung‐related Raman band intensities at 1002, 1548, 1618 and 1655 cm −1 increased after first and second treatments except the su...

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Published in:Journal of biophotonics 2023-11, p.e202300336-e202300336
Main Authors: Jaafar, Ali, Albarazanchi, Abbas, Kadhim, Mohammed Jawad, Darvin, Maxim E., Váczi, Tamás, Tuchin, Valery V., Veres, Miklós
Format: Article
Language:English
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Summary:Ex vivo porcine lung immersed in e‐liquid was investigated in‐depth using confocal Raman micro‐spectroscopy to assess the e‐liquid influence on the lung. It was found that lung‐related Raman band intensities at 1002, 1548, 1618 and 1655 cm −1 increased after first and second treatments except the surface, which was attributed to the well‐known optical clearing (OC) effect due to alveoli filling with e‐liquid resulting in light scattering reduction. The autofluorescence enhancement was explained by oxidative stress induced in lung during exposure to e‐liquid. Moreover, e‐liquid induced collagen dehydration was revealed by the I 937 / I 926 Raman band intensity ratio change. The effect was enhanced after the second treatment of the same lung tissue that indicates the possibility of multi‐step OC treatment. We hypothesize that the nicotine‐flavour‐free e‐liquids containing glycerol and propylene glycol could potentially be used in clinical protocols as OC agent for enhanced in‐depth Raman‐guided bronchoscopy.
ISSN:1864-063X
1864-0648
DOI:10.1002/jbio.202300336