使用 shotgun 宏基因组学方法鉴定人工关节感染病原体。

Identification of Prosthetic Joint Infection Pathogens Using a Shotgun Metagenomics Approach.

机构信息

Division of Infectious Diseases, Department of Medicine, Mayo Clinic, Rochester, Minnesota.

Department of Surgery, Mayo Clinic, Rochester, Minnesota.

出版信息

Clin Infect Dis. 2018 Oct 15;67(9):1333-1338. doi: 10.1093/cid/ciy303.

DOI:10.1093/cid/ciy303

PMID:29648630

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6186856/

Abstract

BACKGROUND

Metagenomic shotgun sequencing has the potential to change how many infections, particularly those caused by difficult-to-culture organisms, are diagnosed. Metagenomics was used to investigate prosthetic joint infections (PJIs), where pathogen detection can be challenging.

METHODS

Four hundred eight sonicate fluid samples generated from resected hip and knee arthroplasties were tested, including 213 from subjects with infections and 195 from subjects without infection. Samples were enriched for microbial DNA using the MolYsis basic kit, whole-genome amplified, and sequenced using Illumina HiSeq 2500 instruments. A pipeline was designed to screen out human reads and analyze remaining sequences for microbial content using the Livermore Metagenomics Analysis Toolkit and MetaPhlAn2 tools.

RESULTS

When compared to sonicate fluid culture, metagenomics was able to identify known pathogens in 94.8% (109/115) of culture-positive PJIs, with additional potential pathogens detected in 9.6% (11/115). New potential pathogens were detected in 43.9% (43/98) of culture-negative PJIs, 21 of which had no other positive culture sources from which these microorganisms had been detected. Detection of microorganisms in samples from uninfected aseptic failure cases was conversely rare (7/195 [3.6%] cases). The presence of human and contaminant microbial DNA from reagents was a challenge, as previously reported.

CONCLUSIONS

Metagenomic shotgun sequencing is a powerful tool to identify a wide range of PJI pathogens, including difficult-to-detect pathogens in culture-negative infections.

摘要

背景

宏基因组鸟枪法测序有可能改变许多感染的诊断方式，尤其是那些难以培养的病原体引起的感染。宏基因组学被用于研究人工关节感染（PJI），其中病原体的检测可能具有挑战性。

方法

我们对 408 份来自髋关节和膝关节置换术切除的超声液样本进行了检测，其中 213 份来自感染患者，195 份来自无感染患者。使用 MolYsis basic 试剂盒对样本进行微生物 DNA 富集，使用 Illumina HiSeq 2500 仪器进行全基因组扩增和测序。设计了一个管道，使用 Livermore 宏基因组分析工具包和 MetaPhlAn2 工具筛选出人类读取，并分析剩余序列中的微生物含量。

结果

与超声液培养相比，宏基因组学能够在 94.8%（109/115）的培养阳性 PJI 中识别出已知病原体，在 9.6%（11/115）的培养阳性 PJI 中检测到额外的潜在病原体。在 43.9%（43/98）的培养阴性 PJI 中检测到新的潜在病原体，其中 21 种微生物在其他培养阳性样本中未被检测到。相反，在无菌性失败病例的无感染样本中检测到微生物的情况很少见（7/195[3.6%]病例）。正如先前报道的那样，来自试剂的人类和污染微生物 DNA 的存在是一个挑战。

结论

宏基因组鸟枪法测序是一种强大的工具，可以识别广泛的 PJI 病原体，包括培养阴性感染中难以检测到的病原体。

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