通过传统核型分析和新一代测序对妊娠产物进行染色体拷贝数分析。

Chromosomal copy number analysis of products of conception by conventional karyotyping and next-generation sequencing.

作者信息

Tamura Yuki, Santo Mitsuo, Araki Yasuhisa, Matsubayashi Hidehiko, Takaya Yukiko, Kitaya Kotaro, Doshida Masakazu, Yamaguchi Kohei, Mizuta Shimpei, Takahashi Chie, Kim Namhyo, Okuno Koichiro, Takeuchi Takumi, Ishikawa Tomomoto

机构信息

Nippon Reprogenetics Inc. Maebashi Japan.

Graduate School of Health Science Gunma Paz University Takasaki Japan.

出版信息

Reprod Med Biol. 2020 Oct 8;20(1):71-75. doi: 10.1002/rmb2.12351. eCollection 2021 Jan.

DOI:10.1002/rmb2.12351

PMID:33488285

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7812460/

Abstract

PURPOSE

Chromosomal abnormalities are a major cause of spontaneous abortion, and conventional G-banded karyotyping (G-banding) is mainly utilized for chromosomal analysis. Recently, next-generation sequencing (NGS) has been introduced for chromosomal analysis. Here, we aimed to investigate the applicability and utility of NGS-based chromosomal analysis of products of conception (POC) on chorionic villus samples from spontaneous abortion.

METHODS

The results of chromosomal analysis of 7 chorionic villus samples from spontaneous abortion were compared between conventional G-banding and NGS-based chromosomal copy number analysis. Age dependency and frequency of each chromosomal aneuploidy were evaluated for 279 cases analyzed by NGS.

RESULTS

Excluding two cases (culture failure and maternal cell contamination), the results were consistent between G-banding and NGS. For cases analyzed by NGS, the rate of chromosomal abnormality increased in a maternal age-dependent manner. The frequency of each chromosomal aneuploidy detected by NGS was almost the same as that previously reported. Finally, NGS analysis was possible for difficult cases by G-banding analysis, such as culture failure, maternal cell contamination, long-term storage cases, and low cell number.

CONCLUSIONS

Chromosome analysis using NGS not only obtains comparable results to conventional G-banding, but also can analyze POC more accurately and efficiently.

摘要

目的

染色体异常是自然流产的主要原因，传统的G带核型分析（G显带）主要用于染色体分析。近年来，新一代测序（NGS）已被引入用于染色体分析。在此，我们旨在研究基于NGS的自然流产绒毛膜绒毛样本妊娠产物（POC）染色体分析的适用性和实用性。

方法

比较了7例自然流产绒毛膜绒毛样本传统G显带和基于NGS的染色体拷贝数分析的染色体分析结果。对通过NGS分析的279例病例评估了各染色体非整倍体的年龄依赖性和频率。

结果

排除2例（培养失败和母体细胞污染），G显带和NGS的结果一致。对于通过NGS分析的病例，染色体异常率随母亲年龄增加而升高。NGS检测到的各染色体非整倍体频率与先前报道的几乎相同。最后，对于G显带分析困难的病例，如培养失败、母体细胞污染、长期保存病例和细胞数量少的病例，NGS分析也是可行的。

结论

使用NGS进行染色体分析不仅能获得与传统G显带相当的结果，还能更准确、高效地分析POC。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d05f/7812460/29fb9093276a/RMB2-20-71-g001.jpg

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通过传统核型分析和新一代测序对妊娠产物进行染色体拷贝数分析。

Chromosomal copy number analysis of products of conception by conventional karyotyping and next-generation sequencing.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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