In this work we demonstrate the use of microfluidic NMR for in situ culture and quantitative analysis of metabolism in hepatocellular carcinoma (HCC) cell lines. A hydrothermal heating system is used to enable continuous in situ NMR observation of HCC cell culture over a 24 h incubation period. This technique is nondestructive, non-invasive and can measure millimolar concentrations at microlitre volumes, within a few minutes and in precisely controlled culture conditions. This is sufficient to observe changes in primary energy metabolism, using around 500-3500 cells per device, and with a time resolution of 17 min. The ability to observe intracellular responses in a time-resolved manner provides a more detailed view of a biological system and how it reacts to stimuli. This capability will allow detailed metabolomic studies of cell-culture based cancer models, enabling quantification of metabolic reporgramming, the metabolic tumor microenvironment, and the metabolic interplay between cancer- and immune cells.
Keywords: Cell culture; Hepatocellular carcinoma (HCC); Lab-on-a-chip; Metabolomics; Microfluidic NMR.
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