[1]高智俊,周国平,郑 岚,等.血液感染性病毒核酸检测室内质量控制方法的研究[J].现代检验医学杂志,2022,37(04):193-197.[doi:10.3969/j.issn.1671-7414.2022.04.038]
 GAO Zhi-jun,ZHOU Guo-ping,ZHENG Lan,et al.Study on Internal Quality Control Method for Nucleic Acid Detection of Blood Infectious Virus[J].Journal of Modern Laboratory Medicine,2022,37(04):193-197.[doi:10.3969/j.issn.1671-7414.2022.04.038]
点击复制

血液感染性病毒核酸检测室内质量控制方法的研究()
分享到:

《现代检验医学杂志》[ISSN:/CN:]

卷:
第37卷
期数:
2022年04期
页码:
193-197
栏目:
质量控制·实验室管理
出版日期:
2022-07-15

文章信息/Info

Title:
Study on Internal Quality Control Method for Nucleic Acid Detection of Blood Infectious Virus
文章编号:
1671-7414(2022)04-193-05
作者:
高智俊周国平郑 岚肇翊同王 迅何智纯
上海市血液中心, 上海 200051
Author(s):
GAO Zhi-jun ZHOU Guo-ping ZHENG Lan ZHAO Yi-tong WANG XunHE Zhi-chun
Shanghai Blood Center,Shanghai 200051,China
关键词:
室内质控核酸检测国立血清学参比实验室质控限Westgard 多规则
分类号:
R446
DOI:
10.3969/j.issn.1671-7414.2022.04.038
文献标志码:
A
摘要:
目的 探讨合适血液感染性病毒核酸检测(nucleic acid testing, NAT)的室内质量控制(internal quality control,IQC)方法。方法 使用北京康彻斯坦质控品(常规质控品)和澳大利亚国立血清学参比实验室(National SerologicalReference Laboratory, NRL)QConnect 质控品(评估质控品)进行血液感染性病毒核酸平行检测。收集2 种质控品的检测结果,在常规质控方法判断为在控的检测批次中,再分别采用Westgard 多规则质控方法和NRL 质控限质控方法进行判断,观察2 种质控方法假失控的次数和比例。结果 在常规质控方法判断在控的实验批次中,再次使用Westgard 多规则质控方法分析,HBV DNA,HCV RNA 和HIV RNA 三项仍各有0 ~ 2.46%(罗氏核酸混样检测)和0.73% ~ 2.55%(盖立复核酸单人份检测)比例的假失控。使用NRL QConnect 质控品在常规质控方法判断在控的盖立复检测批次中,使用NRL 质控限进行室内质控,未发现失控情况。使用NRL QConnect 质控品,在常规质控方法判断在控的罗氏检测批次中,使用NRL 质控限的计算方法,计算该实验室的质控限,发现在HBV DNA 和HIV RNA 检测中各有1 次失控(0.30%)。结论 Westgard 多规则质控方法不适合用于目前血站血液感染性病毒核酸检测的室内质控。该文浓度的NRL QConnect质控品和NRL 质控限适合用于国内盖立复核酸单人份检测方法的室内质控,但该浓度不适合用于国内罗氏核酸混样检测。该实验室在用的室内质控方法与NRL 质控限的室内质控方法,均适用于国内罗氏核酸混样检测和盖立复核酸单人份检测的室内质控。
Abstract:
Objective To identify suitable internal quality control (IQC) method of blood infectious virus nucleic acid testing (NAT). Methods Quality control materials from Beijing Kangchesitan Biotechnology Company(routine quality control) and Australia National serological Reference Laboratory (NRL) QConnect(evaluation quality control) were used to conduct parallel detection of blood nucleic acid. Test results from the two quality control were collected. Westgard rules and NRL QC Limits were applied to in-control test batches judged by routine method and the number and proportion of false rejection rate were identified. Results The Westgard rule quality control method was used to analyze in-control of tested batches judged by routine method in Beijing Kangchesitan quality control materials. The false control rates of HBV DNA, HCV RNA and HIV RNA were still 0 to 2.46% (Roche) and 0.73% to 2.55% (Grifols) respectively. NRL QConnect quality control material was used for nucleic acid testing of single sample(Grifols) . NRL quality control limit was directly used for in-control batches judged by routine method, and no out of control situation was found. NRL QConnect quality control material was used for nucleic acid testing of mixed sample(Roche).Using NRL quality control limit calculation method, calculate the quality control limit of the laboratory with in-control of tested batches judged by routine method, only one false rejection rate (0.30%) was identified from each of the HBV DNA and HIV RNA. Conclusion Westgard rule quality control method is not suitable for internal quality control for nucleic acid testing in blood establishment. The concentration of NRL QConnect quality control material and NRL quality control limit in this paper are suitable for the internal quality control of Grifols nucleic acid single test method, but not for the mixed test of Roche nucleic acid. The internal quality control methods of nucleic acid detection in the laboratory and NRL quality control limit can be used for the internal quality control of Roche nucleic acid mixed test and Grifols nucleic acid single test.

参考文献/References:

[1] KINNS H, PITKIN S, HOUSLEY D, et al. Internal quality control: best practice[J]. Journal of Clinical Pathology, 2013, 66(12): 1027-1032.
[2] S?EZ-ALQUEZAR A, ALBAJAR-VI?AS P,GUIMAR?ES A V, et al. Quality control in screening for infectious diseases at blood banks. rationale and methodology[J]. EJIFCC, 2015, 26(4): 278-285.
[3] DIMECH W, VINCINI G, KARAKALTSAS M. Determination of quality control limits for serological infectious disease testing using historical data[J].Clinical Chemistry and Laboratory Medicine, 2015,53(2): 329-336.
[4] 蒋义, 张钢, 郭咚, 等. 血液病毒核酸筛查系统室内质控方法的建立及评价[J]. 临床检验杂志, 2017, 35(7):542-544. JIANG Yi, ZHANG Gang, GUO Dong, et al.Establishment and evaluation of internal quality control method for blood virus nucleic acid screening system[J]. Chinese Journal of Clinical Laboratory Science,2017, 35(7): 542-544.
[5] 汤心怡, 纪云鹏, 冯晨晨. 血站核酸筛查混样和拆分单检室内质控方法的建立和评价[J]. 中国实验血液学杂志, 2016, 24(3):921-924. TANG Xinyi, JI Yunpeng, FENG Chenchen. Establishment of internal quality control method for mixed and split samples by NAT in blood donor screening [J]. Journal of Experimental Hematology,2016, 24(3): 921-924.
[6] 陈雪, 李书平, 赵欣, 等. 血液核酸筛查利用室内质控品Ct 值建立质控图方法初探[J]. 中国输血杂志,2014, 27(11):1154-1155. CHEN Xue, LI Shuping, ZHAO Xing, et al.Establishment of quality control chart by using Ct value of internal quality control materials in blood nucleic acid screening [J]. Chinese Journal of Blood Transfusion, 2014,27 (11):1154-1155.
[7] 纪冬, 辛绍杰. 实时荧光定量PCR 的发展和数据分析[J]. 生物技术通讯, 2009, 20(4):598-600. JI Dong, XIN Shaojie. Development and data analysis of real-time fluorescent quantitative PCR [J]. Letters in Biotechnology, 2009, 20(4): 598-600.
[8] 易健明, 屈武斌, 张成岗. 实时荧光定量PCR 的数据分析方法[J]. 生物技术通讯, 2015, 26(1):140-145. YI Jianming, QU Wubin, ZHANG Chenggang. Data analysis methods of real-time fluorescent quantitative PCR [J]. Letters in Biotechnology, 2015, 26(1): 140-145.
[9] DIMECH W, KARAKALTSAS M, VINCINI G A. Comparison of four methods of establishing control limits for monitoring quality controls in infectious disease serology testing[J]. Clinical Chemistry and Laboratory Medicine, 2018, 56(11): 1970-1978.

相似文献/References:

[1]张诗诗,章晓燕,王薇,等.感染性疾病诊断和监测微阵列技术的质量控制[J].现代检验医学杂志,2015,30(06):160.[doi:10.3969/j.issn.1671-7414.2015.06.049]
 ZHANG Shi-shi,ZHANG Xiao-yan,WANG Wei,et al.Quality Control of Microarrays for Diagnosis and Monitoring of Infectious Diseases[J].Journal of Modern Laboratory Medicine,2015,30(04):160.[doi:10.3969/j.issn.1671-7414.2015.06.049]
[2]费 阳,王 薇,王治国.临床检验室内质量控制 规则设计新工具—Westgard西格玛规则[J].现代检验医学杂志,2015,30(01):149.[doi:10.3969/j.issn.1671-7414.2015.01.045]
 FEI Yang,WANG Wei,WANG Zhi-guo.A New Internal Quality Control Rules Design Tool in Clinical Laboratory-Westgard Sigma Rules[J].Journal of Modern Laboratory Medicine,2015,30(04):149.[doi:10.3969/j.issn.1671-7414.2015.01.045]
[3]宗曾艳,熊丹,武薇,等.一种国产新型冠状病毒核酸检测试剂盒的性能验证[J].现代检验医学杂志,2020,35(05):113.[doi:10.3969/j.issn.1671-7414.2020.05.029]
 ZONG Zeng-yang,XIONG Dan,WU Wei,et al.Performance Evaluation of A Domestic New Coronavirus Detection Kit[J].Journal of Modern Laboratory Medicine,2020,35(04):113.[doi:10.3969/j.issn.1671-7414.2020.05.029]
[4]赵海卫,孙 珉,王 娟,等.西安地区新型冠状病毒肺炎患者康复期2019-nCoV 核酸检测复阳结果分析[J].现代检验医学杂志,2023,38(01):175.[doi:10.3969/j.issn.1671-7414.2023.01.033]
 ZHAO Hai-wei,SUN Min,WANG Juan,et al.Analysis of the Results of 2019-nCoV Nucleic Acid Detection in Patients with COVID-19 During Convalescence in Xi’an[J].Journal of Modern Laboratory Medicine,2023,38(04):175.[doi:10.3969/j.issn.1671-7414.2023.01.033]
[5]杨依绡,肖艳群,黄中强,等.上海市及其他地区临床实验室B 族链球菌核酸检测室间质量评价分析[J].现代检验医学杂志,2023,38(03):204.[doi:10.3969/j.issn.1671-7414.2023.03.038]
 YANG Yi-xiao,XIAO Yan-qun,HUANG Zhong-qiang,et al.Results of External Quality Assessment for Group B Streptococcus DNA Testing in Shanghai and Other Regions[J].Journal of Modern Laboratory Medicine,2023,38(04):204.[doi:10.3969/j.issn.1671-7414.2023.03.038]
[6]李青松,赵聪平,刘 静,等.CRISPR-Cas13a 系统在病原体检测应用中的最新研究进展[J].现代检验医学杂志,2024,39(03):199.[doi:10.3969/j.issn.1671-7414.2024.03.034]
 LI Qingsong,ZHAO Congping,LIU Jing,et al.Recent Advances in the Application of CRISPR-Cas13a Systems in Pathogen Detection[J].Journal of Modern Laboratory Medicine,2024,39(04):199.[doi:10.3969/j.issn.1671-7414.2024.03.034]
[7]张津铭,王惠民,钟 堃,等.基于蒙特卡洛法绘制医学实验室质控规则的功效函数图及应用研究[J].现代检验医学杂志,2024,39(04):192.[doi:10.3969/j.issn.1671-7414.2024.04.035]
 ZHANG Jinming,WANG Huimin,ZHONG Kun,et al.Power Function Graph of Quality Control Rules in Medical Laboratories Based on Monte Carlo Method and Its Application Research[J].Journal of Modern Laboratory Medicine,2024,39(04):192.[doi:10.3969/j.issn.1671-7414.2024.04.035]

备注/Memo

备注/Memo:
基金项目:中国输血协会威高科研基金,项目编号:CSBT-WG-2017-09。
作者简介:高智俊(1988-),男,本科,主管技师,主要从事采供血相关检测工作,E-mail:gaozhijun@sbc.org.cn。
通讯作者:何智纯(1973-),男,本科,主管技师,主要从事采供血相关管理工作,E-mail:hezhichun@sbc.org.cn。
更新日期/Last Update: 1900-01-01