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利用靶向下一代 DNA 测序技术为新生儿开发 DNA 确认和高危诊断检测。

Development of DNA confirmatory and high-risk diagnostic testing for newborns using targeted next-generation DNA sequencing.

机构信息

Parabase Genomics, Boston, Massachusetts, USA.

Omicia, Oakland, California, USA.

出版信息

Genet Med. 2015 May;17(5):337-47. doi: 10.1038/gim.2014.117. Epub 2014 Sep 25.

DOI:10.1038/gim.2014.117
PMID:25255367
Abstract

PURPOSE

Genetic testing is routinely used for second-tier confirmation of newborn sequencing results to rule out false positives and to confirm diagnoses in newborns undergoing inpatient and outpatient care. We developed a targeted next-generation sequencing panel coupled with a variant processing pipeline and demonstrated utility and performance benchmarks across multiple newborn disease presentations in a retrospective clinical study.

METHODS

The test utilizes an in silico gene filter that focuses directly on 126 genes related to newborn screening diseases and is applied to the exome or a next-generation sequencing panel called NBDx. NBDx targets the 126 genes and additional newborn-specific disorders. It integrates DNA isolation from minimally invasive biological specimens, targeted next-generation screening, and rapid characterization of genetic variation.

RESULTS

We report a rapid parallel processing of 8 to 20 cases within 105 hours with high coverage on our NBDx panel. Analytical sensitivity of 99.8% was observed across known mutation hotspots. Concordance calls with or without clinical summaries were 94% and 75%, respectively.

CONCLUSION

Rapid, automated targeted next-generation sequencing and analysis are practical in newborns for second-tier confirmation and neonatal intensive care unit diagnoses, laying a foundation for future primary DNA-based molecular screening of additional disorders and improving existing molecular testing options for newborns.

摘要

目的

基因检测常用于对新生儿测序结果进行二级确认,以排除假阳性,并确认接受住院和门诊治疗的新生儿的诊断。我们开发了一种靶向的下一代测序面板,结合了变异处理管道,并在回顾性临床研究中展示了其在多种新生儿疾病表现中的实用性和性能基准。

方法

该测试利用了一种计算机基因筛选器,直接针对与新生儿筛查疾病相关的 126 个基因,并应用于外显子或称为 NBDx 的下一代测序面板。NBDx 针对 126 个基因和其他新生儿特异性疾病。它集成了从微创生物样本中提取 DNA、靶向下一代筛选以及快速遗传变异特征描述。

结果

我们报告了在 105 小时内对 8 到 20 个病例进行快速平行处理,在我们的 NBDx 面板上具有高覆盖率。在已知突变热点处观察到 99.8%的分析灵敏度。分别有 94%和 75%的一致性调用,包括或不包括临床总结。

结论

快速、自动化的靶向下一代测序和分析在新生儿中适用于二级确认和新生儿重症监护病房诊断,为未来对其他疾病进行基于 DNA 的一级分子筛查奠定了基础,并改善了新生儿现有的分子检测选择。

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