Electrospray
ionization mass spectrometry (ESI-MS) is
an established
method for the identification of biomarkers. By nano-ESI (nESI), the
polar molecular fraction of complex biological samples can be successfully
ionized. In contrast, the less-polar free cholesterol, which serves
as an important biomarker for several human diseases, is barely accessible
by nESI. Although, complex scan functions of modern high-resolution
MS devices are able to increase the signal-to-noise ratio, they are
limited by the ionization efficiency of the nESI. One possible method
to increase the ionization efficiency is the derivatization with acetyl
chloride, however interferences with cholesteryl esters must be considered,
so chromatographic separation or complex scan functions may be required.
A
novel approach to increase the yield of cholesterol ions of the nESI
could be the application of a second consecutive-ionization process.
This publication presents the flexible microtube plasma (FμTP)
as a consecutive-ionization source, which allows the determination
of cholesterol in nESI-MS analysis. Focusing on the analytical performance,
the nESI-FμTP approach increases the cholesterol signal yield
in a complex liver extract by a factor of 49. The repeatability and
long-term stability could be successfully evaluated. A linear dynamic
range of 1.7 orders of magnitude, a minimum detectability of 5.46
mg/L, and a high accuracy (deviation, −8.1%) demonstrates the
nESI-FμTP-MS as an excellent approach for a derivatization-free
determination of cholesterol.