Toby Chun Hei Chan, Chloe Miu Mak, Matthew Chun Wing Yeung, Eric Chun-Yiu Law, Jana Cheung, Tsz Ki Wong, Vincent Wing-Sang Cheng, Jacky Kwan Ho Lee, Jimmy Chi Lap Wong, Cheuk Wing Fung, Kiran Moti Belaramani, Anne Mei Kwun Kwok, Kwok Yeung Tsang
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The custom-designed NGS panel can detect sequence variants in the relevant genes and also specifically screen for the presence of the hotspot variant IVS16ins3kb of <i>SLC25A13</i> by the copy number variant calling algorithm. Genetic second-tier tests were performed for 1.8% of a total of 22,883 NBS samples. The false positive rate for these six conditions after the NGS second-tier test was only 0.017%, and two cases of citrullinemia type II would have been missed as false negatives if only biochemical first-tier testing was performed. The confirmed true positive cases were citrullinemia type II (<i>n</i> = 2) and systemic primary carnitine deficiency (<i>n</i> = 1). The false positives were later confirmed to be carrier of citrullinemia type II (<i>n</i> = 2), carrier of glutaric acidemia type I (<i>n</i> = 1) and carrier of systemic primary carnitine deficiency (<i>n</i> = 1). There were no false negatives reported. The incorporation of a second-tier genetic screening test by NGS greatly enhanced our program's performance with 5-working days turn-around time maintained as before. 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引用次数: 0
摘要
在本研究中,我们评估了在 2021 年 9 月 1 日至 2022 年 8 月 31 日期间,本实验室在新生儿筛查(NBS)中使用基于扩增子的新一代测序(NGS)面板对六种先天性代谢错误进行二级基因筛查测试的实施情况:瓜氨酸血症 II 型(MIM #605814)、系统性原发性肉碱缺乏症(MIM #212140)、戊二酸血症 I 型(MIM #231670)、β-酮硫醇酶缺乏症(#203750)、全羧化酶合成酶缺乏症(MIM #253270)和 3-hydroxy-3-methylglutaryl-CoA lyase 缺乏症(MIM #246450)。定制设计的 NGS 面板可检测相关基因的序列变异,还可通过拷贝数变异调用算法特异性地筛查 SLC25A13 的热点变异 IVS16ins3kb 的存在。在总共 22,883 份 NBS 样本中,1.8% 的样本进行了基因二级检测。经过 NGS 二级检测后,这六种病症的假阳性率仅为 0.017%,如果只进行生化一级检测,有两例瓜氨酸血症 II 型会被漏诊为假阴性。确诊的真阳性病例为瓜氨酸血症 II 型(n = 2)和系统性原发性肉碱缺乏症(n = 1)。假阳性病例后来被证实为瓜氨酸血症 II 型携带者(n = 2)、戊二酸血症 I 型携带者(n = 1)和系统性原发性肉碱缺乏症携带者(n = 1)。没有假阴性的报告。通过 NGS 进行二级基因筛查大大提高了我们项目的绩效,5 个工作日的周转时间与以前一样。此外,召回时可获得早期遗传信息,以便更好地进行临床管理和遗传咨询。
Harnessing Next-Generation Sequencing as a Timely and Accurate Second-Tier Screening Test for Newborn Screening of Inborn Errors of Metabolism.
In this study, we evaluated the implementation of a second-tier genetic screening test using an amplicon-based next-generation sequencing (NGS) panel in our laboratory during the period of 1 September 2021 to 31 August 2022 for the newborn screening (NBS) of six conditions for inborn errors of metabolism: citrullinemia type II (MIM #605814), systemic primary carnitine deficiency (MIM #212140), glutaric acidemia type I (MIM #231670), beta-ketothiolase deficiency (#203750), holocarboxylase synthetase deficiency (MIM #253270) and 3-hydroxy-3-methylglutaryl-CoA lyase deficiency (MIM # 246450). The custom-designed NGS panel can detect sequence variants in the relevant genes and also specifically screen for the presence of the hotspot variant IVS16ins3kb of SLC25A13 by the copy number variant calling algorithm. Genetic second-tier tests were performed for 1.8% of a total of 22,883 NBS samples. The false positive rate for these six conditions after the NGS second-tier test was only 0.017%, and two cases of citrullinemia type II would have been missed as false negatives if only biochemical first-tier testing was performed. The confirmed true positive cases were citrullinemia type II (n = 2) and systemic primary carnitine deficiency (n = 1). The false positives were later confirmed to be carrier of citrullinemia type II (n = 2), carrier of glutaric acidemia type I (n = 1) and carrier of systemic primary carnitine deficiency (n = 1). There were no false negatives reported. The incorporation of a second-tier genetic screening test by NGS greatly enhanced our program's performance with 5-working days turn-around time maintained as before. In addition, early genetic information is available at the time of recall to facilitate better clinical management and genetic counseling.