Abstract
Mechanical stiffness of liver organoid is a key indicator for the progress of hepatic steatosis. Probe indentation is a noninvasive methodology to measure Young's modulus (YM); however, the inhomogeneous nature of the liver organoid induces measurement uncertainty requiring a large number of indentations covering a wide scanning area. Here, we demonstrate that lipid-stained fluorescence imaging-assisted probe indentation significantly reduces the number of measurements by specifying the highly lipid-induced area. Lipid-stained hepatic steatosis model liver organoid shows broad fluorescence distributions that are spatially correlated with a decreased YM on a lipid-filled region with bright fluorescence compared with that measured on a blank region with dark fluorescence. The organoid viability remained robust even after exposure to an ambient condition up to 6 h, showing that probe indentations can be noninvasive methods for liver organoid stiffness measurements.
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