AI Article Synopsis
- Liver cancer, primarily hepatocellular carcinoma (HCC), is a leading cause of cancer deaths globally, with altered lipid metabolism playing a crucial role in tumor growth.
- Researchers used a novel mass spectrometry technique called rapid evaporative ionization mass spectrometry (REIMS) to analyze 12 human HCC tumor tissues, along with paired noncancerous tissues, identifying multiple free fatty acids and phospholipids with significant variations among tissue types.
- The study found specific fatty acids and phospholipids significantly increased in HCC tissues compared to paracancerous and noncancerous tissues, achieving high diagnostic accuracy with 100% sensitivity and 90.5% specificity using a statistical model for real-time
Article Abstract
Liver cancer is generally considered the leading cause of cancer deaths worldwide, and hepatocellular carcinoma (HCC) contributes to more than 90% of liver cancers. The altered lipid metabolism for rapid cancer cell growth and tumor formation has been frequently proven. In this study, an ambient ionization mass spectrometry technique, rapid evaporative ionization mass spectrometry (REIMS) using a monopolar electric knife, called iKnife, was systematically optimized and employed for ex vivo analysis of 12 human HCC tumor tissue specimens together with the paired paracancerous tissue (PT) and noncancerous liver tissue (NCT) specimens. Nine free fatty acids and 34 phospholipids were tentatively identified according to their extract masses and/or tandem mass spectra. With the help of statistical methods, 7 free fatty acids and 10 phospholipids were distributed differently in 3 types of liver tissue specimens (95% confidence interval). The box plots showed these characterized lipid metabolites varied in PT, HCC, and NCT. Compared with PT and NCT, the upregulations of four common fatty acids FA 18:0, FA 20:4, FA 16:0, and FA 18:1, together with phospholipids PC 36:1, PE 38:3, PE (18:0/20:4), PA (O-36:1), PC (32:1), PC 32:0, PE 34:0, and PC (16:0/18:1), were found in HCC specimens. The sensitivity and specificity of the established statistic model for real-time HCC tumor diagnosis were 100% and 90.5%, respectively. This study demonstrated that the described REIMS technique is a potential method for rapid lipidomic analysis and characterization of HCC tumor tissue.
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| http://dx.doi.org/10.1002/elps.202300007 | DOI Listing |
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