TY  - JOUR
AU  - Qiuwei Lin
AU  - Bo Deng
AU  - Hanbin Zeng
AU  - Can Zhang
AU  - Chunfen Lin
AU  - Ni Mo
AU  - Xiulong Zhu
AU  - David Deng
PY  - 2023
DA  - 2023/08/21
TI  - An Automatic Fast High Resolution HDL Subfractioning Assay Using Microfluidic Electrophoretic System
JO  - Japan Journal of Research
VL  - 4
IS  - 6
AB  - Objectives: Studies in recent decade demonstrated the importance of HDL subfractionation in precision
medicine. It is notable that not all HDL subfractions are “good” lipoprotein. The lack of a reliable
technique that can precisely identify each particle of HDL subfractions remains the major obstacle
in clinical application. Based on the principle of microfluidic electrophoresis, we have developed an
automatic system (MFE) that meets the need of clinical applications. The objectives of this paper is to
test the system for its application, precision, and also the normal range in healthy population using one
of major subfraction, HDL-2b, as a target.
Methods: The MFE was compared with traditional non-denaturing polyacrylamide gradient gel
electrophoresis (GGE). Intra-chip, inter-chip, inter-instrument, inter-lab, and inter-operator precisions
were all tested by using the sample in various conditions. An instruction was provided with the instrument
and HDL subfractioning kit. Data were analyzed with SPSS for correlation of variation, regressions, etc.
Results: The new system exhibited a linear correlation with the traditional GGE system. The intra-chip
%CVs, inter-chip %CVs, inter-instrument %CVs of HDL-2b were less than 10%, which was the set
acceptance criteria. With 243 samples from healthy individuals demonstrated that the mean value of
HDL-2b% is about 25% in both male and female.
Conclusions: Our data demonstrated that the MFE system is a fast, automatic, and reliable system that
can obtain the percentage of HDL-2b with high precision.
SN  - 2690-8077
UR  - https://dx.doi.org/10.33425/2690-8077.1080
DO  - 10.33425/2690-8077.1080