Gene. 2012 Aug 1;504(1):144-9. doi: 10.1016/j.gene.2012.04.045. Epub 2012 Apr 25.
Prenatal diagnosis (PD) is available for pregnancies at risk of monogenic disorders. However, PD requires the use of invasive obstetric techniques for fetal-sample collection and therefore, involves a risk of fetal loss. Circulating fetal DNA in the maternal bloodstream is being used to perform non-invasive prenatal diagnosis (NIPD). NIPD is a challenging discipline because of the biological features of the maternal blood sample. Maternal blood is an unequal mixture of small (and fragmented) amounts of fetal DNA within a wide background of maternal DNA. For this reason, initial NIPD studies have been based on the analysis of specific paternally inherited fetal tracts not present in the maternal genome so as to ensure their fetal origin. Following this strategy, different NIPD studies have been carried out, such as fetal-sex assessment for pregnancies at risk of X-linked disorders, RhD determination, and analysis of single-gene disorders with a paternal origin. The study of the paternal mutation can be used for fetal diagnosis of dominant disorders or to more accurately assess the risk of an affected child in case of recessive diseases. Huntington's disease, cystic fibrosis, or achondroplasia are some examples of diseases studied using NIPD. New technologies are opening NIPD to the analysis of maternally inherited fetal tracts. NIPD of trisomy 21 is the latest study derived from the use of next-generation sequencing (NGS).
产前诊断(PD)可用于患有单基因疾病风险的妊娠。然而,PD 需要使用侵入性的产科技术来采集胎儿样本,因此存在胎儿丢失的风险。循环胎儿 DNA 正在被用于进行非侵入性产前诊断(NIPD)。由于母体血液样本的生物学特征,NIPD 是一项具有挑战性的学科。母体血液是胎儿 DNA 的小(和碎片化)量在母体 DNA 广泛背景下的不均匀混合物。出于这个原因,最初的 NIPD 研究基于分析特定的父系遗传胎儿片段,这些片段不存在于母体基因组中,以确保其胎儿来源。遵循这一策略,已经进行了不同的 NIPD 研究,例如对患有 X 连锁疾病风险的妊娠进行胎儿性别评估、RhD 测定以及具有父系起源的单基因疾病的分析。对父系突变的研究可用于显性疾病的胎儿诊断,或在隐性疾病的情况下更准确地评估受影响儿童的风险。亨廷顿病、囊性纤维化或软骨发育不全是使用 NIPD 研究的一些疾病的例子。新技术正在将 NIPD 扩展到对母体遗传胎儿片段的分析。21 三体的 NIPD 是最新的研究,源自下一代测序(NGS)的使用。
