Optimizing the management of analytical interferences affecting red blood cells on XN‐10 (Sysmex®)

Introduction Interferences on red blood cells (RBCs) measurement and the associated parameters in haematology analyzers are very common. Many sources of interferences are described but their management remains uncertain depending on the measurement system; we aimed at developing an optimized scheme...

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Bibliographic Details
Published in:International journal of laboratory hematology 2022-12, Vol.44 (6), p.1068-1077
Main Authors: Henry, Sylvain, Gérard, Delphine, Salignac, Sylvain, Perrin, Julien
Format: Article
Language:English
Subjects:
Agglutinins
analytical interference
Cold agglutinins
Erythrocyte Count
Erythrocytes
flowchart
Hematology
Humans
Laboratories
Leukocytosis
Management
Original
Plasma
Prospective Studies
RBCs count
Retrospective Studies
XN‐10
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Summary:Introduction Interferences on red blood cells (RBCs) measurement and the associated parameters in haematology analyzers are very common. Many sources of interferences are described but their management remains uncertain depending on the measurement system; we aimed at developing an optimized scheme allowing the accurate management of most interferences affecting RBCs, based on the alternative “optical” parameters from SYSMEX XN‐10. Methods Samples from 12 groups of relevant interferences were analysed and compared with a control group allowing (1) the determination of deviation thresholds beyond which an interference is likely, and (2) the development of two flowcharts for their subsequent management. These flowcharts were then evaluated among a bank of retrospective typical cases of interferences and in the routine flow of the laboratory. Results After verifying the excellent agreement between standard and alternative parameters, the comparative study between analytical channels allowed to determine an acceptable deviation and then discriminate technical concerns caused by cold agglutinins, leukocytosis and plasma‐related interferences. This led to the development of flowcharts ensuring the accurate management of these interferences, whether MCHC is 365 g/L. These proposed flowcharts allowed the correction of 63/65 historical confirmed interferences cases (97%). Furthermore, they corrected 18 results among 901 unselected prospective samples. Conclusion The resulting flowcharts allow a relevant correction for most common interferences affecting RBCs and are now definitively included in the routine analytical management and will be directly incorporated in the middleware of the laboratory.
ISSN:1751-5521
1751-553X
DOI:10.1111/ijlh.13951