Comparison of Optical Genome Mapping With Conventional Diagnostic Methods for Structural Variant Detection in Hematologic Malignancies.

IF 4 2区 医学 Q1 MEDICAL LABORATORY TECHNOLOGY Annals of Laboratory Medicine Pub Date : 2024-07-01 Epub Date: 2024-03-04 DOI:10.3343/alm.2023.0339
Yeeun Shim, Yu-Kyung Koo, Saeam Shin, Seung-Tae Lee, Kyung-A Lee, Jong Rak Choi
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Abstract

Background: Structural variants (SVs) are currently analyzed using a combination of conventional methods; however, this approach has limitations. Optical genome mapping (OGM), an emerging technology for detecting SVs using a single-molecule strategy, has the potential to replace conventional methods. We compared OGM with conventional diagnostic methods for detecting SVs in various hematologic malignancies.

Methods: Residual bone marrow aspirates from 27 patients with hematologic malignancies in whom SVs were observed using conventional methods (chromosomal banding analysis, FISH, an RNA fusion panel, and reverse transcription PCR) were analyzed using OGM. The concordance between the OGM and conventional method results was evaluated.

Results: OGM showed concordance in 63% (17/27) and partial concordance in 37% (10/27) of samples. OGM detected 76% (52/68) of the total SVs correctly (concordance rate for each type of SVs: aneuploidies, 83% [15/18]; balanced translocation, 80% [12/15] unbalanced translocation, 54% [7/13] deletions, 81% [13/16]; duplications, 100% [2/2] inversion 100% [1/1]; insertion, 100% [1/1]; marker chromosome, 0% [0/1]; isochromosome, 100% [1/1]). Sixteen discordant results were attributed to the involvement of centromeric/telomeric regions, detection sensitivity, and a low mapping rate and coverage. OGM identified additional SVs, including submicroscopic SVs and novel fusions, in five cases.

Conclusions: OGM shows a high level of concordance with conventional diagnostic methods for the detection of SVs and can identify novel variants, suggesting its potential utility in enabling more comprehensive SV analysis in routine diagnostics of hematologic malignancies, although further studies and improvements are required.

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光学基因组图谱与传统诊断方法在血液恶性肿瘤结构变异检测方面的比较
背景:目前,结构变异(SVs)的分析采用多种传统方法,但这种方法存在局限性。光学基因组图谱(OGM)是一种利用单分子策略检测SV的新兴技术,有可能取代传统方法。我们比较了 OGM 与传统诊断方法在各种血液恶性肿瘤中检测 SVs 的效果:我们使用 OGM 分析了 27 位血液恶性肿瘤患者的骨髓穿刺残留物,这些患者使用传统方法(染色体条带分析、FISH、RNA 融合面板和反转录 PCR)观察到 SVs。评估了 OGM 与传统方法结果的一致性:结果:OGM 显示 63%(17/27)的样本结果一致,37%(10/27)的样本结果部分一致。OGM正确检测出总SV的76%(52/68)(各类型SV的吻合率:非整倍体,83%[15/18];平衡易位,80%[12/15];不平衡易位,54%[7/13];缺失,81%[13/16];重复,100%[2/2];倒位,100%[1/1];插入,100%[1/1];标记染色体,0%[0/1];同源染色体,100%[1/1])。16 个不一致的结果归因于中心粒/同源区的参与、检测灵敏度以及较低的制图率和覆盖率。OGM 在 5 个病例中发现了额外的 SV,包括亚显微 SV 和新型融合:结论:OGM 在检测 SV 方面与传统诊断方法的一致性很高,并能发现新型变异,这表明它在血液系统恶性肿瘤的常规诊断中可用于更全面的 SV 分析,但仍需进一步研究和改进。
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来源期刊
Annals of Laboratory Medicine
Annals of Laboratory Medicine MEDICAL LABORATORY TECHNOLOGY-
CiteScore
8.30
自引率
12.20%
发文量
100
审稿时长
6-12 weeks
期刊介绍: Annals of Laboratory Medicine is the official journal of Korean Society for Laboratory Medicine. The journal title has been recently changed from the Korean Journal of Laboratory Medicine (ISSN, 1598-6535) from the January issue of 2012. The JCR 2017 Impact factor of Ann Lab Med was 1.916.
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