应用新一代测序（NGS） panel 于新生儿筛检可有效鉴定新生儿的先天疾病。

Application of a next-generation sequencing (NGS) panel in newborn screening efficiently identifies inborn disorders of neonates.

机构信息

Department of Genetics and Metabolism, Children's Hospital of Zhejiang University School of Medicine, National Clinical Research Center for Child Health, Hangzhou, People's Republic of China.

Zhejiang Neonatal Screening Center, Department of Genetics and Metabolism, Children's Hospital of Zhejiang University School of Medicine, National Clinical Research Center for Child Health, Hangzhou, China.

出版信息

Orphanet J Rare Dis. 2022 Feb 21;17(1):66. doi: 10.1186/s13023-022-02231-x.

DOI:10.1186/s13023-022-02231-x

PMID:35193651

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8862216/

Abstract

BACKGROUND

Newborn screening (NBS) has been implemented for neonatal inborn disorders using various technology platforms, but false-positive and false-negative results are still common. In addition, target diseases of NBS are limited by suitable biomarkers. Here we sought to assess the feasibility of further improving the screening using next-generation sequencing technology.

METHODS

We designed a newborn genetic sequencing (NBGS) panel based on multiplex PCR and next generation sequencing to analyze 134 genes of 74 inborn disorders, that were validated in 287 samples with previously known mutations. A retrospective cohort of 4986 newborns was analyzed and compared with the biochemical results to evaluate the performance of this panel.

RESULTS

The accuracy of the panel was 99.65% with all samples, and 154 mutations from 287 samples were 100% detected. In 4986 newborns, a total of 113 newborns were detected with biallelic or hemizygous mutations, of which 36 newborns were positive for the same disorder by both NBGS and conventional NBS (C-NBS) and 77 individuals were NBGS positive/C-NBS negative. Importantly, 4 of the 77 newborns were diagnosed currently including 1 newborn with methylmalonic acidemia, 1 newborn with primary systemic carnitine deficiency and 2 newborns with Wilson's disease. A total of 1326 newborns were found to be carriers with an overall carrier rate of 26.6%.

CONCLUSION

Analysis based on next generation sequencing could effectively identify neonates affected with more congenital disorders. Combined with C-NBS, this approach may improve the early and accurate identification of neonates with inborn disorders. Our study lays the foundation for prospective studies and for implementing NGS-based analysis in NBS.

摘要

背景

新生儿筛查（NBS）已采用各种技术平台对新生儿先天性疾病进行检测，但仍存在假阳性和假阴性的结果。此外，NBS 的目标疾病受到合适生物标志物的限制。在此，我们评估了使用下一代测序技术进一步提高筛查准确性的可行性。

方法

我们设计了一个基于多重 PCR 和下一代测序的新生儿基因测序（NBGS）panel，用于分析 74 种先天性疾病的 134 个基因，该 panel 在 287 个具有已知突变的样本中进行了验证。我们分析了一个 4986 例新生儿的回顾性队列，并与生化结果进行比较，以评估该 panel 的性能。

结果

该 panel 在所有样本中的准确率为 99.65%，在 287 个样本中的 154 个突变均 100%检出。在 4986 例新生儿中，共有 113 例新生儿检测到双等位基因或半合子突变，其中 36 例新生儿的 NBGS 和常规 NBS（C-NBS）结果一致，77 例为 NBGS 阳性/C-NBS 阴性。重要的是，77 例 NBGS 阳性/C-NBS 阴性的新生儿中有 4 例已确诊，包括 1 例甲基丙二酸血症、1 例原发性系统性肉碱缺乏症和 2 例威尔逊病。共有 1326 例新生儿为携带者，总体携带率为 26.6%。

结论

基于下一代测序的分析可以有效识别受更多先天性疾病影响的新生儿。与 C-NBS 结合使用，这种方法可能会提高先天性疾病新生儿的早期和准确识别。我们的研究为前瞻性研究和在 NBS 中实施基于 NGS 的分析奠定了基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/03e0/8862216/cceba39368c8/13023_2022_2231_Fig1_HTML.jpg

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应用新一代测序（NGS） panel 于新生儿筛检可有效鉴定新生儿的先天疾病。

Application of a next-generation sequencing (NGS) panel in newborn screening efficiently identifies inborn disorders of neonates.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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