Expert consensuses on the application of nanopore sequencing technology in the detection of pathogenic microorganisms

ZHANG Shuyao; HOU Tieying; LI Xiaoyan; ZHONG Shilong; WU Junyan; HUANG Bin; Division of Therapeutic Drug Monitoring of Chinese Pharmacological Society; Expert Committee of Precision Medicine for Clinical Treatment of Guangdong Pharmaceutical Association; the Writing Group of the Expert Consensuses on the Application of Nanopore Sequencing Technology in the Detection of Pathogenic Microorganisms

doi:10.6039/j.issn.1001-0408.2024.14.01

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Expert consensuses on the application of nanopore sequencing technology in the detection of pathogenic microorganisms

更新时间：2024-07-25

- Expert consensuses on the application of nanopore sequencing technology in the detection of pathogenic microorganisms
- ZHONGGUO YAOFANG Vol. 35, Issue 14, Pages: 1673-1682(2024)
- 作者机构：
  
  1.暨南大学附属广州红十字会医院临床精准治疗中心，广州;510240
  2.华中科技大学协和深圳医院（南山医院），广东深圳　518101
  3.中山大学附属第六医院药学部，广州　510510
  4.广东省人民医院药学部，广州　519041
  5.中山大学孙逸仙纪念医院药学部，广州　510120
  6.中山大学附属第一医院检验科，广州　510080
- 作者简介：
- 基金信息：
- DOI：10.6039/j.issn.1001-0408.2024.14.01
  CLC： R446.5
- Published：30 July 2024，
  
  Received：26 January 2024，
  
  Revised：20 June 2024，
- 稿件说明：
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张述耀,侯铁英,黎小妍等.纳米孔测序在病原微生物检测中的应用专家共识[J].中国药房,2024,35(14):1673-1682.

ZHANG Shuyao,HOU Tieying,LI Xiaoyan,et al.Expert consensuses on the application of nanopore sequencing technology in the detection of pathogenic microorganisms[J].ZHONGGUO YAOFANG,2024,35(14):1673-1682.
张述耀,侯铁英,黎小妍等.纳米孔测序在病原微生物检测中的应用专家共识[J].中国药房,2024,35(14):1673-1682. DOI： 10.6039/j.issn.1001-0408.2024.14.01.

ZHANG Shuyao,HOU Tieying,LI Xiaoyan,et al.Expert consensuses on the application of nanopore sequencing technology in the detection of pathogenic microorganisms[J].ZHONGGUO YAOFANG,2024,35(14):1673-1682. DOI： 10.6039/j.issn.1001-0408.2024.14.01.

摘要

目的

提高危重症感染性疾病的诊断及救治水平，规范纳米孔测序的临床应用，促进该技术的良性发展。

方法

由中国药理学会治疗药物监测研究专业基层委员会和广东省药学会临床治疗精准用药专家委员会发起并组织多学科专家，采用名义群体法讨论确定共识编写大纲，形成共识初稿；采用德尔菲法进行专家咨询，对专家意见进行分析和修订，形成共识。结果与

结论

最终制定的《纳米孔测序在病原微生物检测中的应用专家共识》涵盖了靶向测序、宏基因组测序和全基因组测序等方向，对纳米孔测序的样本采集与保存、检测过程、生物信息学分析、报告解读等全流程进行了规范，并对其中的关键问题给出了推荐意见。

Abstract

OBJECTIVE

To improve the diagnosis and treatment level of critically ill infectious diseases， standardize the clinical application of nanopore sequencing and promote the sound development of the technology.

METHODS

Division of Therapeutic Drug Monitoring of Chinese Pharmacological Society and Expert Committee of Precision Medicine for Clinical Treatment of Guangdong Pharmaceutical Association initiated and organized multidisciplinary experts to discuss and determine the consensus writing outline by using the nominal group method， forming a preliminary consensus draft； expert consultation was performed by using Delphi method， and then experts’ opinions were analyzed and revised to form consensus.

RESULTS &CONCLUSIONS

Consensuses of Experts on the Application of Nanopore Sequencing Technology in the Detection of Pathogenic Microorganisms

covers targeted sequencing， metagenomic sequencing and whole genome sequencing， and is standardized in terms of sample collection and storage， detection process， bioinformatics analysis and report interpretation； the recommendations are provided for the key issues.

关键词

第三代测序纳米孔测序病原微生物危重症感染临床检验微生物学诊断

Keywords

nanopore sequencingpathogenic microorganismscritical infectionclinical laboratory testsmicrobiological diagnosis

references

刘晔，许小毛. 基于纳米孔测序技术的临床检测研究进展[J]. 中华检验医学杂志，2022，45（3）：296-299.

LIU Y，XU X M. Research progress of nanopore sequen-cing in the clinic[J]. Chin J Lab Med，2022，45（3）：296-299.

LI J，WANG H Q，MAO L F，et al. Rapid genomic characterization of SARS-CoV-2 viruses from clinical specimens using nanopore sequencing[J]. Sci Rep，2020，10（1）：17492.

ZHAO N，ZHOU N，FAN H F，et al. Mutations and phylogenetic analyses of SARS-CoV-2 among imported COVID-19 from abroad in Nanjing，China[J]. Front Microbiol，2022，13：851323.

LIN Q Q，YAO Y K，LI X，et al. The application of nanopore targeted sequencing for pathogen diagnosis in bronchoalveolar lavage fluid of patients with pneumonia：a prospective multicenter study[J]. Infect Dis，2024，56（2）：128-137.

ZHAO M N，ZHANG Y Y，CHEN L，et al. Nanopore sequencing of infectious fluid is a promising supplement for gold-standard culture in real-world clinical scenario[J]. Front Cell Infect Microbiol，2024，14：1330788.

中华医学会检验医学分会临床微生物学组，中华医学会微生物学与免疫学分会临床微生物学组，中国医疗保健国际交流促进会临床微生物与感染分会，等. 宏基因组高通量测序技术应用于感染性疾病病原检测中国专家共识[J]. 中华检验医学杂志，2021，7（2）：107-120.

Clinical Microbiology Group of Chinese Society of Laboratory Medicine，Clinical Microbiology Group of Chinese Society of Microbiology and Immunology，Society of Clinical Microbiology and Infection of China International Exchange and Promotion Association for Medical and Healthcare，et al. Chinese expert consensus on metagenomics next-generation sequencing application on pathogen detection of infectious diseases[J]. Chin J Lab Med，2021，7（2）：107-120.

《中华传染病杂志》编辑委员会. 中国宏基因组学第二代测序技术检测感染病原体的临床应用专家共识[J]. 中华传染病杂志，2020，38（11）：681-689.

Editorial Board of the Chinese Journal of Infectious Di-seases.Clinical practice expert consensus for the application of metagenomic next generation sequencing[J]. Chin J Infect Dis，2020，38（11）：681-689.

高通量测序共识专家组，初乃惠，黄海荣，等. 高通量测序技术在分枝杆菌病诊断中的应用专家共识[J]. 中华传染病杂志，2023，9（3）：175-182.

Expert Group on Consensus for High-throughput Sequen-cing，CHU N H，HUANG H R，et al. Expert consensus on the application of high-throughput sequencing technology in the diagnosis of mycobacterial diseases[J]. Chin J Infect Dis，2023，9（3）：175-182.

WANG Y H，ZHAO Y，BOLLAS A，et al. Nanopore sequencing technology，bioinformatics and applications[J]. Nat Biotechnol，2021，39（11）：1348-1365.

MOSS E L，MAGHINI D G，BHATT A S. Complete，closed bacterial genomes from microbiomes using nanopore sequencing[J]. Nat Biotechnol，2020，38（6）：701-707.

CRETU STANCU M，VAN ROOSMALEN M J，RENKENS I，et al. Mapping and phasing of structural variation in patient genomes using nanopore sequencing[J]. Nat Commun，2017，8（1）：1326.

LEGER A，AMARAL P P，PANDOLFINI L，et al. RNA modifications detection by comparative nanopore direct RNA sequencing[J]. Nat Commun，2021，12（1）：7198.

TOURANCHEAU A，MEAD E A，ZHANG X S，et al. Discovering multiple types of DNA methylation from bacteria and microbiome using nanopore sequencing[J]. Nat Methods，2021，18（5）：491-498.

HANSEN S，DILL V，SHALABY M A，et al. Serotyping of foot-and-mouth disease virus using Oxford nanopore sequencing[J]. J Virol Methods，2019，263：50-53.

HOENEN T. Sequencing of Ebola virus genomes using nanopore technology[J]. Bio Protoc，2016，6（21）：e1998.

国家卫生健康委员会.临床微生物学检验样本的采集和转运：WS/T 640-2018[S/OL].（2018-12-11）[2024-06-19].https：//www.antpedia.com/standard/1154253251.htmlhttps://www.antpedia.com/standard/1154253251.html.

The National Health Commission. Collection and tran-sport of samples for clinical microbiology test：WS/T 640-2018[S/OL].（2018-12-11）[2024-06-19]. https：//www.antpedia.com/standard/1154253251.htmlhttps://www.antpedia.com/standard/1154253251.html.

中华预防医学会医院感染控制分会. 临床微生物标本采集和送检指南[J]. 中华医院感染学杂志，2018，28（20）：3192-3200.

Chinese Preventive Medicine Association Hospital Infection Control Branch. Guidelines for collection and submission of clinical microbial specimens[J]. Chin J Nosoco-miology，2018，28（20）：3192-3200.

马虹，杨修军，隋达伟，等. 病原微生物实验室的生物安全管理[J]. 中国卫生工程学，2010，9（2）：156-157.

MA H，YANG X J，SUI D W，et al. Biosafety management of pathogenic microorganism laboratory[J]. Chin J Public Health Eng，2010，9（2）：156-157.

中华医学会检验医学分会，鲁辛辛，王成彬，等. 高通量宏基因组测序技术检测病原微生物的临床应用规范化专家共识[J]. 中华检验医学杂志，2020，6（12）：1181-1195.

Chinese Society of Laboratory Medicine，LU X X，WANG C B，et al. Expert consensus on clinical standar-dized application of metagenomics next-generation sequencing for detection of pathogenic microorganisms[J]. Chin J Lab Med，2020，6（12）：1181-1195.

WICK R R，JUDD L M，GORRIE C L，et al. Completing bacterial genome assemblies with multiplex MinION sequencing[J]. Microb Genom，2017，3（10）：e000132.

COSTER W D，D’HERT S，SCHULTZ D T，et al. Nanopack：visualizing and processing long-read sequencing data[J]. Bioinformatics，2018，34（15）：2666-2669.

ROBERTS L W，ENOCH D A，KHOKHAR F，et al. Long-read sequencing reveals genomic diversity and associated plasmid movement of carbapenemase-producing bacteria in a UK hospital over 6 years[J]. Microb Genom，2023，9（7）：mgen001048.

PETERSEN C，SØRENSEN T，WESTPHAL K R，et al. High molecular weight DNA extraction methods lead to high quality filamentous ascomycete fungal genome assemblies using Oxford nanopore sequencing[J]. Microb Genom，2022，8（4）：000816.

GUO Y F，LI Z Z，LI L J，et al. A dual-process of targeted and unbiased nanopore sequencing enables accurate and rapid diagnosis of lower respiratory infections[J]. EBioMedicine，2023，98：104858.

LI H. Minimap2：pairwise alignment for nucleotide sequences[J]. Bioinformatics，2018，34（18）：3094-3100.

SICHTIG H，MINOGUE T，YAN Y，et al. FDA-ARGOS is a database with public quality-controlled reference genomes for diagnostic use and regulatory science[J]. Nat Commun，2019，10（1）：3313.

PRUITT K D，TATUSOVA T，MAGLOTT D R. NCBI re-ference sequence（RefSeq）：a curated non-redundant sequence database of genomes，transcripts and proteins[J]. Nucleic Acids Res，2005，33（Suppl. 1）：D501-D504.

LAO H Y，WONG L L，HUI Y，et al. The clinical utility of nanopore 16S rRNA gene sequencing for direct bacterial identification in normally sterile body fluids[J]. Front Microbiol，2023，14：1324494.

XU Y F，LEWANDOWSKI K，LUMLEY S，et al. Detection of viral pathogens with multiplex nanopore MinION sequencing：be careful with cross-talk[J]. Front Microbiol，2018，9：2225.

曹茂开，汪美先. 科赫氏法则在现代医学中的新思考[J]. 医学与哲学，1991，12（12）：8-10.

CAO M K，WANG M X. New thinking on Koch’s rule in modern medicine[J]. Med Philos，1991，12（12）：8-10.

MILLER S，NACCACHE S N，SAMAYOA E，et al. Laboratory validation of a clinical metagenomic sequencing assay for pathogen detection in cerebrospinal fluid[J]. Genome Res，2019，29（5）：831-842.

FAN S，WANG X J，HU Y F，et al. Metagenomic next-generation sequencing of cerebrospinal fluid for the diagnosis of central nervous system infections：a multicentre prospective study[J]. BioRxiv，2019：658047.

宏基因组学测序技术在中重症感染中的临床应用共识专家组，中国研究型医院学会脓毒症与休克专业委员会，中国微生物学会微生物毒素专业委员会，等. 宏基因组学测序技术在中重症感染中的临床应用专家共识：第一版[J].中华危重病急救医学，2020，32（5）：531‐536.

Consensus Expert Group on Clinical Application of Metagenomics Sequencing Technology in Moderate and Severe Infection，Sepsis and Shock Committee of Chinese Society of Research Hospitals，Microbial Toxin Committee of Chinese Society of Microbiology，et al. Expert consensus for the application of metagenomic next generation sequencing in the pathogen diagnosis in clinical moderate and severe infections：first edition[J]. Chin Crit Care Med，2020，32（5）：531‐536.

ALCOCK B P，HUYNH W，CHALIL R，et al. CARD 2023：expanded curation，support for machine learning，and resistome prediction at the Comprehensive Antibiotic Resistance Database[J]. Nucleic Acids Res，2023，51（D1）：D690-D699.

SALZBERG S L，BREITWIESER F P，KUMAR A，et al. Next-generation sequencing in neuropathologic diagnosis of infections of the nervous system[J]. Neurol Neuroimmunol Neuroinflamm，2016，3（4）：e251.

缪青，胡必杰，陈翔，等. 一种基于病原宏基因二代测序的解读方法：CN110335656A[P]. 2019-10-15.

MIAO Q，HU B J，CHEN X，et al. An interpretation method based on the second-generation sequencing of the pathogenic metagene：CN110335656A[P]. 2019-10-15.

中华预防医学会. 基于高通量测序的病原体筛查通用准则：T/CPMA 010‐2020[S/OL].（2020‐07‐01）[2024-06-19].https：//www.antpedia.com/standard/sp/905822.htmlhttps://www.antpedia.com/standard/sp/905822.html.

The Chinese Preventive Medical Association. Common guidelines for pathogen screening based on high-throughput sequencing：T/CPMA 010-2020[S/OL].（2020-07-01）[2024- 06-19].https：//www.antpedia.com/standard/sp/905822.htmlhttps://www.antpedia.com/standard/sp/905822.html.

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LI Xiaoyan

ZHONG Shilong

WU Junyan

HUANG Bin

Division of Therapeutic Drug Monitoring of Chinese Pharmacological Society

Expert Committee of Precision Medicine for Clinical Treatment of Guangdong Pharmaceutical Association

the Writing Group of the Expert Consensuses on the Application of Nanopore Sequencing Technology in the Detection of Pathogenic Microorganisms

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Dept. of Clinical Laboratory， the First Affiliated Hospital of Sun Yat-sen University

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