基因组和外显子组测序以及染色体微阵列在疑似遗传疾病儿童中的诊断及临床应用的荟萃分析。

Meta-analysis of the diagnostic and clinical utility of genome and exome sequencing and chromosomal microarray in children with suspected genetic diseases.

作者信息

Clark Michelle M, Stark Zornitza, Farnaes Lauge, Tan Tiong Y, White Susan M, Dimmock David, Kingsmore Stephen F

机构信息

Rady Children's Institute for Genomic Medicine, San Diego, CA USA.

2Murdoch Children's Research Institute, Melbourne, Australia.

出版信息

NPJ Genom Med. 2018 Jul 9;3:16. doi: 10.1038/s41525-018-0053-8. eCollection 2018.

DOI:10.1038/s41525-018-0053-8

PMID:30002876

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6037748/

Abstract

Genetic diseases are leading causes of childhood mortality. Whole-genome sequencing (WGS) and whole-exome sequencing (WES) are relatively new methods for diagnosing genetic diseases, whereas chromosomal microarray (CMA) is well established. Here we compared the diagnostic utility (rate of causative, pathogenic, or likely pathogenic genotypes in known disease genes) and clinical utility (proportion in whom medical or surgical management was changed by diagnosis) of WGS, WES, and CMA in children with suspected genetic diseases by systematic review of the literature (January 2011-August 2017) and meta-analysis, following MOOSE/PRISMA guidelines. In 37 studies, comprising 20,068 children, diagnostic utility of WGS (0.41, 95% CI 0.34-0.48, = 44%) and WES (0.36, 95% CI 0.33-0.40, = 83%) were qualitatively greater than CMA (0.10, 95% CI 0.08-0.12, = 81%). Among studies published in 2017, the diagnostic utility of WGS was significantly greater than CMA ( < 0.0001, = 13% and = 40%, respectively). Among studies featuring within-cohort comparisons, the diagnostic utility of WES was significantly greater than CMA ( < 0.001, = 36%). The diagnostic utility of WGS and WES were not significantly different. In studies featuring within-cohort comparisons of WGS/WES, the likelihood of diagnosis was significantly greater for trios than singletons (odds ratio 2.04, 95% CI 1.62-2.56, = 12%; < 0.0001). Diagnostic utility of WGS/WES with hospital-based interpretation (0.42, 95% CI 0.38-0.45, = 48%) was qualitatively higher than that of reference laboratories (0.29, 95% CI 0.27-0.31, = 49%); this difference was significant among studies published in 2017 ( < .0001, = 22% and = 26%, respectively). The clinical utility of WGS (0.27, 95% CI 0.17-0.40, = 54%) and WES (0.17, 95% CI 0.12-0.24, = 76%) were higher than CMA (0.06, 95% CI 0.05-0.07, = 42%); this difference was significant for WGS vs CMA ( < 0.0001). In conclusion, in children with suspected genetic diseases, the diagnostic and clinical utility of WGS/WES were greater than CMA. Subgroups with higher WGS/WES diagnostic utility were trios and those receiving hospital-based interpretation. WGS/WES should be considered a first-line genomic test for children with suspected genetic diseases.

摘要

遗传疾病是儿童死亡的主要原因。全基因组测序（WGS）和全外显子组测序（WES）是相对较新的遗传疾病诊断方法，而染色体微阵列分析（CMA）则已被广泛应用。在此，我们遵循MOOSE/PRISMA指南，通过对文献（2011年1月至2017年8月）的系统回顾和荟萃分析，比较了WGS、WES和CMA在疑似遗传疾病儿童中的诊断效用（已知疾病基因中致病、致病或可能致病基因型的比例）和临床效用（诊断改变医疗或手术管理的比例）。在37项研究中，共纳入20,068名儿童，WGS（0.41，95%可信区间0.34 - 0.48，研究数量 = 44%）和WES（0.36，95%可信区间0.33 - 0.40，研究数量 = 83%）的诊断效用在质量上高于CMA（0.10，95%可信区间0.08 - 0.12，研究数量 = 81%）。在2017年发表的研究中，WGS的诊断效用显著高于CMA（P < 0.0001，研究数量分别为13%和40%）。在进行队列内比较的研究中，WES的诊断效用显著高于CMA（P < 0.001，研究数量 = 36%）。WGS和WES的诊断效用无显著差异。在进行WGS/WES队列内比较的研究中，三联体的诊断可能性显著高于单亲个体（优势比2.04，95%可信区间1.62 - 2.56，研究数量 = 12%；P < 0.0001）。基于医院解读的WGS/WES诊断效用（0.42，95%可信区间0.38 - 0.45，研究数量 = 48%）在质量上高于参考实验室（0.29，95%可信区间0.27 - 0.31，研究数量 = 49%）；在2017年发表的研究中，这种差异显著（P <.0001，研究数量分别为22%和26%）。WGS（0.27，95%可信区间0.17 - 0.40，研究数量 = 54%）和WES（0.17，95%可信区间0.12 - 0.24，研究数量 = 76%）的临床效用高于CMA（0.06，95%可信区间0.05 - 0.07，研究数量 = 42%）；WGS与CMA相比，这种差异显著（P < 0.0001）。总之，在疑似遗传疾病儿童中，WGS/WES的诊断和临床效用大于CMA。WGS/WES诊断效用较高的亚组是三联体和接受基于医院解读的个体。对于疑似遗传疾病儿童，WGS/WES应被视为一线基因组检测方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f47e/6037748/c0a39f16c06e/41525_2018_53_Fig1_HTML.jpg

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基因组和外显子组测序以及染色体微阵列在疑似遗传疾病儿童中的诊断及临床应用的荟萃分析。

Meta-analysis of the diagnostic and clinical utility of genome and exome sequencing and chromosomal microarray in children with suspected genetic diseases.

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