Back to Search Start Over

Traceable machine learning real-time quality control based on patient data

Authors :
Rui Zhou
Wei Wang
Andrea Padoan
Zhe Wang
Xiang Feng
Zewen Han
Chao Chen
Yufang Liang
Tingting Wang
Weiqun Cui
Mario Plebani
Qingtao Wang
Publication Year :
2022
Publisher :
WALTER DE GRUYTER GMBH, 2022.

Abstract

Objectives Patient-based real-time quality control (PBRTQC) has gained attention as an alternative/integrative tool for internal quality control (iQC). However, it is still doubted for its performance and its application in real clinical settings. We aim to generate a newly and easy-to-access patient-based real-time QC by machine learning (ML) traceable to standard reference data with assigned values by National Institute of Metrology of China (NIM), and to compare it with PBRTQC for clinical validity evaluation. Methods For five representative biochemistry analytes, 1,195 000 patient testing results each were collected. After data processing, independent training and test sets were divided. Machine learning internal quality control (MLiQC) was set up by Random Forest in ML and was validated by way of both metrology algorithm traceability and 4 PBRTQC methods recommended by IFCC analytical working group. Results MLiQC were established. As an example of albumin (ALB) at the critical bias, the uncertainty of MLiQC was 0.14%, which was evaluated by standard reference data produced by NIM. Compared with four optimal PBRTQC methods at critical bias, the average of the number of patient samples from a bias introduced until detected (ANPed) of MLiQC averagely decreased from 600 to 20. The median and 95 quantiles of NPeds (MNPed and 95NPed) of MLiQC were superior to all optimal PBRTQCs above 90% for all test items. Conclusions MLiQC is highly superior to PBRTQC and well-suited in real settings. The validation of the model from two aspects of algorithm traceability and clinical effectiveness confirms its satisfactory performance.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....e9a07c43722c9b28ecb7225638ea1c66