Autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validation

Autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validation

Objective: Continuous process improvements enhance accuracy and productivity in a clinical laboratory setting. This study aimed to investigate the accuracy and efficiency of a new autoverification (AV) system designed to improve the consistency and uniformity of reported laboratory test results. Me...

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Bibliographic Details
Main Authors: Sairung Nuanin, Panutsaya Tientadakul, Kanit Reesukumal, Sudarat Piyophirapong, Gerald Kost, Busadee Pratumvinit
Format: Article
Language:English
Published: Mahidol University 2020-05-01
Series:Siriraj Medical Journal
Subjects:
Autoverification
critical path
delta check
full-time equivalent
laboratory information system
turnaround time
Online Access:https://he02.tci-thaijo.org/index.php/sirirajmedj/article/view/240613
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spelling doaj-26f28cfe1ebf4d3f9f10dd925093d1122021-08-13T09:45:09ZengMahidol UniversitySiriraj Medical Journal2228-80822020-05-0172410.33192/Smj.2020.40240613Autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validationSairung Nuanin0Panutsaya Tientadakul1Kanit Reesukumal2Sudarat Piyophirapong3Gerald Kost4Busadee Pratumvinit5Department of Clinical Pathology, Faculty of Medicine Siriraj Hospital, Mahidol University, Bangkok, ThailandDepartment of Clinical Pathology, Faculty of Medicine Siriraj Hospital, Mahidol University, Bangkok, ThailandDepartment of Clinical Pathology, Faculty of Medicine Siriraj Hospital, Mahidol University, Bangkok, ThailandDepartment of Clinical Pathology, Faculty of Medicine Siriraj Hospital, Mahidol University, Bangkok, ThailandPoint-of-Care Testing Center for Teaching and Research (POCT.CTR™), School of Medicine, University of California - Davis, Sacramento, California, USAFaculty of Medicine Siriraj Hospital, Mahidol University Objective: Continuous process improvements enhance accuracy and productivity in a clinical laboratory setting. This study aimed to investigate the accuracy and efficiency of a new autoverification (AV) system designed to improve the consistency and uniformity of reported laboratory test results. Methods: Limit checks, delta checks, and consistency checks were established, and then retrospective data from 500 requested tests were used to evaluate the accuracy of AV rules compared to manual verification, which was performed by five experienced medical technologists. Efficiency was evaluated by comparing turnaround time (TAT), error rates, workload, and staff satisfaction between before and after AV implementation. Results: AV had 100% sensitivity, 77.6% specificity, and a 22% false-positive rate. The AV passing rate was 95%, 85%, 42%, and 39% for chemistry, coagulation, microscopy, and hematology, respectively. The overall passing rate was 65%. After implementation, the mean overall TAT decreased from 54.2±26.6 to 52.4±24.2 min (p<0.001). However, TAT during peak hours increased (p<0.05). Incident reports decreased 8-fold (p<0.05), net workload decreased by 0.76 full-time equivalent, and overall staff satisfaction increased (p<0.001). Conclusion: Our laboratory’s new AV system demonstrated an overall passing rate of 65% with decreases in TAT, incident reports, and workload, and an increase in staff satisfaction. https://he02.tci-thaijo.org/index.php/sirirajmedj/article/view/240613Autoverificationcritical pathdelta checkfull-time equivalentlaboratory information systemturnaround time
collection DOAJ
language English
format Article
sources DOAJ
author Sairung Nuanin
Panutsaya Tientadakul
Kanit Reesukumal
Sudarat Piyophirapong
Gerald Kost
Busadee Pratumvinit
spellingShingle Sairung Nuanin
Panutsaya Tientadakul
Kanit Reesukumal
Sudarat Piyophirapong
Gerald Kost
Busadee Pratumvinit
Autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validation
Siriraj Medical Journal
Autoverification
critical path
delta check
full-time equivalent
laboratory information system
turnaround time
author_facet Sairung Nuanin
Panutsaya Tientadakul
Kanit Reesukumal
Sudarat Piyophirapong
Gerald Kost
Busadee Pratumvinit
author_sort Sairung Nuanin
title Autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validation
title_short Autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validation
title_full Autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validation
title_fullStr Autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validation
title_full_unstemmed Autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validation
title_sort autoverification improved process efficiency, reduced staff workload, and enhanced staff satisfaction using a critical path for result validation
publisher Mahidol University
series Siriraj Medical Journal
issn 2228-8082
publishDate 2020-05-01
description Objective: Continuous process improvements enhance accuracy and productivity in a clinical laboratory setting. This study aimed to investigate the accuracy and efficiency of a new autoverification (AV) system designed to improve the consistency and uniformity of reported laboratory test results. Methods: Limit checks, delta checks, and consistency checks were established, and then retrospective data from 500 requested tests were used to evaluate the accuracy of AV rules compared to manual verification, which was performed by five experienced medical technologists. Efficiency was evaluated by comparing turnaround time (TAT), error rates, workload, and staff satisfaction between before and after AV implementation. Results: AV had 100% sensitivity, 77.6% specificity, and a 22% false-positive rate. The AV passing rate was 95%, 85%, 42%, and 39% for chemistry, coagulation, microscopy, and hematology, respectively. The overall passing rate was 65%. After implementation, the mean overall TAT decreased from 54.2±26.6 to 52.4±24.2 min (p<0.001). However, TAT during peak hours increased (p<0.05). Incident reports decreased 8-fold (p<0.05), net workload decreased by 0.76 full-time equivalent, and overall staff satisfaction increased (p<0.001). Conclusion: Our laboratory’s new AV system demonstrated an overall passing rate of 65% with decreases in TAT, incident reports, and workload, and an increase in staff satisfaction.
topic Autoverification
critical path
delta check
full-time equivalent
laboratory information system
turnaround time
url https://he02.tci-thaijo.org/index.php/sirirajmedj/article/view/240613
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AT panutsayatientadakul autoverificationimprovedprocessefficiencyreducedstaffworkloadandenhancedstaffsatisfactionusingacriticalpathforresultvalidation
AT kanitreesukumal autoverificationimprovedprocessefficiencyreducedstaffworkloadandenhancedstaffsatisfactionusingacriticalpathforresultvalidation
AT sudaratpiyophirapong autoverificationimprovedprocessefficiencyreducedstaffworkloadandenhancedstaffsatisfactionusingacriticalpathforresultvalidation
AT geraldkost autoverificationimprovedprocessefficiencyreducedstaffworkloadandenhancedstaffsatisfactionusingacriticalpathforresultvalidation
AT busadeepratumvinit autoverificationimprovedprocessefficiencyreducedstaffworkloadandenhancedstaffsatisfactionusingacriticalpathforresultvalidation
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