Combined Count- and Size-Based Analysis of Maternal Plasma DNA for Noninvasive Prenatal Detection of Fetal Subchromosomal Aberrations Facilitates Elucidation of the Fetal and/or Maternal Origin of the Aberrations

胎儿 假阳性悖论 产前诊断 产科 怀孕 医学 计算机科学 生物 遗传学 人工智能
作者
Stephanie C Y Yu,Peiyong Jiang,K.C. Allen Chan,Brigitte H. W. Faas,Kwong Wai Choy,Wing Cheong Leung,Tak Yeung Leung,Y. M. Dennis Lo,Rossa W. K. Chiu
出处
期刊:Clinical Chemistry [American Association for Clinical Chemistry]
卷期号:63 (2): 495-502 被引量:23
标识
DOI:10.1373/clinchem.2016.254813
摘要

Abstract BACKGROUND Noninvasive prenatal detection of fetal subchromosomal copy number aberrations (CNAs) can be achieved through massively parallel sequencing of maternal plasma DNA. However, when a mother herself is a carrier of a CNA, one cannot discern if her fetus has inherited the CNA. In addition, false-positive results would become more prevalent when more subchromosomal regions are analyzed. METHODS We used a strategy that combined count- and size-based analyses of maternal plasma DNA for the detection of fetal subchromosomal CNAs in 7 target regions for 10 test cases. RESULTS For the 5 cases in which CNAs were present only in the fetus, the size-based approach confirmed the aberrations detected by the count-based approach. For the 5 cases in which the mother herself carried an aberration, we successfully deduced that 3 of the fetuses had inherited the aberrations and that the other 2 fetuses had not inherited the aberrations. No false positives were observed in this cohort. CONCLUSIONS Combined count- and size-based analysis of maternal plasma DNA permits the noninvasive elucidation of whether a fetus has inherited a CNA from its mother who herself is a carrier of the CNA. This strategy has the potential to improve the diagnostic specificity of noninvasive prenatal testing.
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