New erythrocyte parameters derived from the Coulter principle relate with red blood cell properties—A pilot study in diabetes mellitus

Author:

Bourguignon ChloéORCID,Ansel Clémentine,Gineys Jean-Philippe,Schuldiner Sophie,Isèbe Damien,Geitner Michael,Taraconat Pierre,Gris Jean-Christophe

Abstract

In routine hematological instruments, blood cells are counted and sized by monitoring the impedance signals induced during their passage through a Coulter orifice. However, only signals associated with centered paths in the aperture are considered for analysis, while the rejected measurements, caused by near-wall trajectories, can provide additional information on red blood cells (RBC), as recent publications suggest. To assess usefulness of two new parameters in describing alterations in RBC properties, we performed a pilot study to compare blood samples from patients with diabetes mellitus (DM), frequent pathological condition associated with impairment in RBC deformability, versus controls. A total of 345 blood samples were analyzed: 225 in the DM group and 120 in the control group. A diagram of R and P, the two new parameters derived from the analysis of impedancemetry pulses, was used to compare distribution of RBC subpopulations between groups. To discriminate RBC from DM and control individuals, based on our multiparametric analysis, we built a score from variables derived from R/P matrix which showed good performances: area under the receiving operating characteristic curve 0.948 (0.920–0.970), p<0.0001; best discriminating value: negative predictive value 94.7%, positive predictive value was 78.4%. These results seem promising to approach RBC alterations in routine laboratory practice. The related potential clinically relevant outcomes remain to be investigated.

Funder

ANR

Publisher

Public Library of Science (PLoS)

Subject

Multidisciplinary

Reference29 articles.

1. Coulter W H. Means for counting particles suspended in a fluid. 2,656,508, 1953.

2. Numerical simulation of deformable particles in a Coulter counter;P Taraconat;Int J Numer Method Biomed Eng,2019

3. Red blood cell rheology during a complete blood count: A proof of concept;P Taraconat;PLoS One,2023

4. Detecting cells rotations for increasing the robustness of cell sizing by impedance measurements, with or without machine learning;P Taraconat;Cytometry A,2021

5. Improving resolution in coulter counting by hydrodynamic focusing;L Spielman;J Colloid Interface Sci,1968

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