A multicenter study for establishment and evaluation of auto-verification rules for routine coagulation tests

Linzi Miao; Chuanbao Li; Juhua Dai; Run Wang; Jing Zhang; Huiming Ye; Qingkun Fan; Huixia Lu; Hai Wang; Yanli Zhao; Xiaoxia Li; Baiqing Wu; Lijiao Xia; Chuanjin Zhu; Yang Shen; Wei Xu; Chenxue Qu

Informatics in Medicine Unlocked (Jan 2022)

A multicenter study for establishment and evaluation of auto-verification rules for routine coagulation tests

Linzi Miao,
Chuanbao Li,
Juhua Dai,
Run Wang,
Jing Zhang,
Huiming Ye,
Qingkun Fan,
Huixia Lu,
Hai Wang,
Yanli Zhao,
Xiaoxia Li,
Baiqing Wu,
Lijiao Xia,
Chuanjin Zhu,
Yang Shen,
Wei Xu,
Chenxue Qu

Affiliations

Linzi Miao: Peking University First Hospital, China
Chuanbao Li: Beijing Hospital, China
Juhua Dai: Peking University International Hospital, China
Run Wang: Peking University First Hospital, China
Jing Zhang: Women and Children's Hospital, School of Medicine, Xiamen University, China
Huiming Ye: Women and Children's Hospital, School of Medicine, Xiamen University, China
Qingkun Fan: Wuhan Asian Heart Hospital, China
Huixia Lu: Zhongda Hospital, Southeast University, China
Hai Wang: China-Japan Union Hospital of Jilin University, China
Yanli Zhao: The Second Hospital of Jilin University, China
Xiaoxia Li: Shaanxi Provincial People's Hospital, China
Baiqing Wu: Jiangxi Provincial People's Hospital, China
Lijiao Xia: Civil Aviation General Hospital, China
Chuanjin Zhu: Shandong Cancer Hospital, China
Yang Shen: Werfen Medical Device Trading (Beijing) Co. Ltd., China
Wei Xu: Bethune First Hospital of Jilin University, China
Chenxue Qu: Peking University First Hospital, China; Corresponding author. Department of Clinical Laboratory, Peking University First Hospital, No.8 Xishiku Street Xicheng DistrictBeijing, 100034, PR China.

Journal volume & issue: Vol. 32
p. 101019

Abstract

Read online

Background & Objectives: Coagulation test results in clinical laboratories are released after manual verification, which increases the laboratory turnaround time (TAT). The purpose of this study was to establish auto-verification rules for routine coagulation tests that can reduce the laboratory TAT as well as ensure the accuracy of results. Methods: Auto-verification rules were established for six routine coagulation tests, i.e., prothrombin time, activated partial thromboplastin time, thrombin time, fibrinogen (FIB), fibrin/fibrinogen degradation product, and D-Dimer. Data were collected from nine centers and the auto-verification rules were designed with reference to CLSI Auto 10A guidelines, which included quality control (QC) status check, consistency check (checking whether sample test assays match the medical order or if results are in correct numerical form), sample quality check, alarm check, critical value check, delta check, limit range check, and logical rules check. The auto-verification rules were then assessed based on passing rate, true-positive rate, true-negative rate, false-positive rate, and false-negative rate. The efficiency of the auto-verification rules was evaluated by TAT. Results: From January 2020 to March 2020, 22,072 coagulation results were collected from nine hospitals for establishing auto-verification rules. The preliminary evaluation of the rules was a simulation validation with data from the rule-generating group, and the passing rate was 69.5% with no false-negative cases. In phase I evaluation, a total of 32,743 results were randomly collected from four hospitals. The overall auto-verification rate was 66.7% (true-positive rate 100.0%; true-negative rate 82.5%; false-positive rate 17.6%; false-negative rate 0%). The phase II evaluation was based on validation of results of actual samples. Auto-verification rules were configured in a middleware (HemoHub) and 14,642 samples results were verified by the auto-verification rules. The overall passing rate was 69.5%. Auto-verification significantly decreased the mean laboratory TAT from 90.8 min to 71.8 min (P = 0.006). Conclusion: This study established auto-verification rules for routine coagulation tests based on Werfen coagulation instrument. Use of auto-verification rules significantly improved the laboratory TAT and workflow. This study provides insights and methods for establishing auto-verification rules.

Published in Informatics in Medicine Unlocked

ISSN: 2352-9148 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General): Computer applications to medicine. Medical informatics
Website: https://www.journals.elsevier.com/informatics-in-medicine-unlocked/

About the journal

Abstract

Keywords