Rose Rajiv, Venkatesh Aishwarya, Pietilä Sanna, Jabeen Gazala, Jagadeesh Sujatha M, Seshadri Suresh
Molecular Laboratory, PerkinElmer Health Sciences, Ticel BioPark- Phase II, Chennai, India.
Research & Development Laboratory, PerkinElmer, Singapore, Singapore.
J Obstet Gynaecol Res. 2019 Apr;45(4):830-840. doi: 10.1111/jog.13920. Epub 2019 Jan 10.
Chromosome analysis of prenatal samples and products of conception (POC) has conventionally been done by karyotyping (KT). Shortcomings of KT like high turnaround time and culture failure led to technology innovations, such as the bacterial artificial chromosomes (BAC)s-on-Beads (BoBs)-based tests, Prenatal BoBs (prenatal samples) and KaryoLite BoBs (POC samples). In the present study, we validated and evaluated the utility of each test on prenatal, POC and blood samples.
Study A (n = 305; 259 prenatal + 46 blood/POC) and Study B (n = 176; 146 POC/chorionic vill + 30 blood/amniotic fluid) samples were analyzed using Prenatal and KaryoLite BoBs kits, respectively. KT, array-based Comparative Genomic Hybridization (arrayCGH) and fluorescence in situ hybridization (FISH) were used for comparison of results. Ability of KaryoLite BoBs to identify ring chromosomes was tested.
Prenatal BoBs had zero test failure rate and results of all samples were concordant with KT results. Totally four microdeletions were identified by Prenatal BoBs but not by KT. In Study B, all but two POC samples (one triploid and one tetraploid) were concordant with KT and arrayCGH. Partial chromosomal imbalance detection rate was ~64% and KaryoLite BoBs indicated the presence of a ring chromosome in all four cases. The failure rate of KaryoLite BoBs was 3%.
We conclude that Prenatal BoBs (common aneuploidies and nine microdeletions) together with KT constitutes more comprehensive prenatal testing compared to FISH and KT. KaryoLite BoBs for aneuploidies of all chromosomes is highly successful in POC analysis and the ability to indicate presence of ring chromosomes improves its clinical sensitivity. Both tests are robust and could also be used for different specimens.
传统上,产前样本和妊娠产物(POC)的染色体分析是通过核型分析(KT)来完成的。KT存在诸如周转时间长和培养失败等缺点,这促使了技术创新,例如基于细菌人工染色体(BAC)微珠(BoBs)的检测方法,即产前BoBs(用于产前样本)和核型Lite BoBs(用于POC样本)。在本研究中,我们对每种检测方法在产前样本、POC样本和血液样本上的效用进行了验证和评估。
分别使用产前BoBs试剂盒和核型Lite BoBs试剂盒对研究A(n = 305;259例产前样本 + 46例血液/POC样本)和研究B(n = 176;146例POC/绒毛膜绒毛样本 + 30例血液/羊水样本)的样本进行分析。使用KT、基于芯片的比较基因组杂交(arrayCGH)和荧光原位杂交(FISH)来比较结果。测试了核型Lite BoBs识别环状染色体的能力。
产前BoBs的检测失败率为零,所有样本的结果与KT结果一致。产前BoBs共检测出4个微缺失,而KT未检测到。在研究B中,除两个POC样本(一个三倍体和一个四倍体)外,所有样本的结果与KT和arrayCGH结果一致。部分染色体失衡检测率约为64%,核型Lite BoBs在所有4例中均表明存在环状染色体。核型Lite BoBs的失败率为3%。
我们得出结论,与FISH和KT相比,产前BoBs(常见非整倍体和9个微缺失)与KT一起构成了更全面的产前检测。用于所有染色体非整倍体检测的核型Lite BoBs在POC分析中非常成功,其指示环状染色体存在的能力提高了其临床敏感性。这两种检测方法都很可靠,也可用于不同的样本。
