作者
Jinglan Zhang,Jianli Li,Jennifer Saucier,Yanming Feng,Yanjun Jiang,Jefferson Sinson,Anne K. McCombs,Eric Schmitt,Sandra Peacock,Stella Chen,Hongzheng Dai,Xiaoyan Ge,Guoli Wang,Chad A. Shaw,Hui Mei,Amy M. Breman,Fan Xia,Yaping Yang,Anne Purgason,Alan Pourpak,Chen Zhao,Xia Wang,Yue Wang,Shashikant Kulkarni,Kwong Wai Choy,Ronald J. Wapner,Ignatia B. Van den Veyver,Arthur L. Beaudet,Sheetal Parmar,Lee‐Jun C. Wong,Christine M. Eng
摘要
Current non-invasive prenatal screening is targeted toward the detection of chromosomal abnormalities in the fetus1,2. However, screening for many dominant monogenic disorders associated with de novo mutations is not available, despite their relatively high incidence3. Here we report on the development and validation of, and early clinical experience with, a new approach for non-invasive prenatal sequencing for a panel of causative genes for frequent dominant monogenic diseases. Cell-free DNA (cfDNA) extracted from maternal plasma was barcoded, enriched, and then analyzed by next-generation sequencing (NGS) for targeted regions. Low-level fetal variants were identified by a statistical analysis adjusted for NGS read count and fetal fraction. Pathogenic or likely pathogenic variants were confirmed by a secondary amplicon-based test on cfDNA. Clinical tests were performed on 422 pregnancies with or without abnormal ultrasound findings or family history. Follow-up studies on cases with available outcome results confirmed 20 true-positive, 127 true-negative, zero false-positive, and zero-false negative results. The initial clinical study demonstrated that this non-invasive test can provide valuable molecular information for the detection of a wide spectrum of dominant monogenic diseases, complementing current screening for aneuploidies or carrier screening for recessive disorders.