Genetics of early miscarriage

A miscarriage is the most frequent complication of a pregnancy. Poor chromosome preparations, culture failure, or maternal cell contamination may hamper conventional karyotyping. Techniques such as chromosomal comparative genomic hybridization (chromosomal‐CGH), array-comparative genomic hybridization (array-CGH), fluorescence in situ hybridization (FISH), multiplex ligation-dependent probe amplification (MLPA) and quantitative fluorescent polymerase chain reaction (QF-PCR) enable us to trace submicroscopic abnormalities. We found the prevalence of chromosome abnormalities in women facing a single sporadic miscarriage to be 45% (95% CI: 38–52; 13 studies, 7012 samples). The prevalence of chromosome abnormalities in women experiencing a subsequent miscarriage after preceding recurrent miscarriage proved to be comparable: 39% (95% CI: 29–50; 6 studies 1359 samples). More chromosome abnormalities are detected by conventional karyotyping compared to FISH or MLPA only (chromosome region specific techniques), and the same amount of abnormalities compared to QF-PCR (chromosome region specific techniques) and chromosomal‐CGH and array-CGH (whole genome techniques) only. Molecular techniques could play a role as an additional technique when culture failure or maternal contamination occurs: recent studies show that by using array-CGH, an additional 5% of submicroscopic chromosome variants can be detected. Because of the small sample size as well as the unknown clinical relevance of these molecular aberrations, more and larger studies should be performed of submicroscopic chromosome abnormalities among sporadic miscarriage samples. For recurrent miscarriage samples molecular technique studies are relatively new. It has often been suggested that miscarriages are due to chromosomal abnormalities in more than 50%, but the present review has determined that chromosomal and submicroscopic genetic abnormalities on average are prevalent in maximally half of the miscarriage samples. This article is part of a Special Issue entitled: Molecular Genetics of Human Reproductive Failure.     

Applying high‐throughput sequencing to identify and evaluate foetal chromosomal deletion and duplication

The present study aimed to estimate the clinical performance of non‐invasive prenatal testing (NIPT) based on high‐throughput sequencing method for the detection of foetal chromosomal deletions and duplications. A total of 6348 pregnant women receiving NIPT using high‐throughput sequencing method were included in our study. They all conceived naturally, without twins, triplets or multiple births. Individuals showing abnormalities in NIPT received invasive ultrasound‐guided amniocentesis for chromosomal karyotype and microarray analysis at 18‐24 weeks of pregnancy. Detection results of foetal chromosomal deletions and duplications were compared between high‐throughput sequencing method and chromosomal karyotype and microarray analysis. Thirty‐eight individuals were identified to show 51 chromosomal deletions/duplications via high‐throughput sequencing method. In subsequent chromosomal karyotype and microarray analysis, 34 subchromosomal deletions/duplications were identified in 26 pregnant women. The observed deletions and duplications ranged from 1.05 to 17.98 Mb. Detection accuracy for these deletions and duplications was 66.7%. Twenty‐one deletions and duplications were found to be correlated with the known abnormalities. NIPT based on high‐throughput sequencing technique is able to identify foetal chromosomal deletions and duplications, but its sensitivity and specificity were not explored. Further progress should be made to reduce false‐positive results.     

多重荧光定量PCR技术快速诊断21三体及18三体方法的建立及临床应用

利用收集的20例21三体、3例18三体DNA样本及40例正常人DNA样本,选择多对21、18号染色体短串联重复序列分子标记,建立多重荧光定量PCR检测技术用于21三体、18三体的快速产前诊断;利用建立的方法对165例产前诊断病例及4例消化道畸形新生儿进行检测,并与核型分析结果相比较。169例病例中共诊断21三体4例,18三体1例,所有病例均在1～3d得到结果,无漏诊和误诊,并利用建立的多重荧光定量PCR技术为5例核型分析失败的病例提供了明确的产前诊断。对于同期B超检查胎儿结构异常的22例胎儿,则采用传统的核型分析,检出1例(45,X),1例(47,XXY)。结果表明建立的多重荧光定量PCR技术可快速、准确地诊断21三体和18三体,减轻核型分析需时过长给孕妇带来的焦虑,可用于血清学筛查21三体、18三体高风险者及高龄孕妇,也适用于对其他遗传性疾病如遗传性耳聋进行产前诊断时并行检测以排除21三体和18三体。多重荧光定量PCR技术结合传统核型分析可更好的满足产前诊断的临床需求。     

Contribution of ultrasonographic examination to the prenatal detection of chromosomal abnormalities in 19 centres across Europe.

The objective of this study was to evaluate the prenatal detection of chromosomal abnormalities by fetal ultrasonographic examination in a large database provided by 19 Registries of Congenital Anomalies from 11 European countries. This study included 1738 cases of chromosomal abnormalities, liveborn, stillborn or termination of pregnancy regardless of maternal age from a population of 664,340 births during the period 1996 - 1998. The most frequent chromosomal anomalies were Down syndrome (n=1050), trisomy 18 (n=191), Turner syndrome (n=125), trisomy 13 (n=86), and triploidy (n=56). Fetal ultrasonographic examination resulted in the prenatal detection of 37.7% of the chromosomal abnormalities, thereby resulting in a reduction of 28.6% in their prevalence at birth due to terminations of pregnancy. The detection rate by ultrasound examination varied according to local policies of prenatal diagnosis : it was lower in countries where routine scan were not performed and higher in countries in which at least one routine anomaly scan during the second trimester of pregnancy was performed. The ultrasound detection varied according to the specific chromosomal anomaly and was lowest for Klinefelter syndrome (5.7%) and highest for triploidy (78.6%). For Down syndrome it was 26.4%. Termination of pregnancy was performed in 75.9% of the cases. Among the 655 cases detected by ultrasound, the most frequent ultrasound signs by category of chromosomal abnormalities were analysed. This study shows that ultrasound screening is an important tool in the prenatal detection of chromosomal abnormalities in Europe, leading to a significant reduction in the prevalence of livebirth children with chromosomal anomalies.     

Prenatal detection of aneuploidy and imbalanced chromosomal arrangements by massively parallel sequencing

Fetal chromosomal abnormalities are the most common reasons for invasive prenatal testing. Currently, G-band karyotyping and several molecular genetic methods have been established for diagnosis of chromosomal abnormalities. Although these testing methods are highly reliable, the major limitation remains restricted resolutions or can only achieve limited coverage on the human genome at one time. The massively parallel sequencing (MPS) technologies which can reach single base pair resolution allows detection of genome-wide intragenic deletions and duplication challenging karyotyping and microarrays as the tool for prenatal diagnosis. Here we reported a novel and robust MPS-based method to detect aneuploidy and imbalanced chromosomal arrangements in amniotic fluid (AF) samples. We sequenced 62 AF samples on Illumina GAIIx platform and with averagely 0.01× whole genome sequencing data we detected 13 samples with numerical chromosomal abnormalities by z-test. With up to 2× whole genome sequencing data we were able to detect microdeletion/microduplication (ranged from 1.4 Mb to 37.3 Mb of 5 samples from chorionic villus sampling (CVS) using SeqSeq algorithm. Our work demonstrated MPS is a robust and accurate approach to detect aneuploidy and imbalanced chromosomal arrangements in prenatal samples.     

MLPA: A prenatal diagnostic tool for the study of congenital heart defects?

Congenital heart defects (CHD) represent the most common birth defects, so they are not a rare finding when performing routine ultrasound examinations during pregnancy. Once chromosome abnormalities have been excluded in a fetus with a CHD, chromosome 22q11.2 deletion is usually investigated by FISH, as it is the most frequent microdeletion syndrome and is generally associated with cardiac malformations. If 22q11.2 microdeletion is ruled out, the etiology of the CHD remains generally unexplained, making familial genetic counseling difficult. To evaluate the usefulness of Multiplex Ligation-dependent Probe Amplification (MLPA) kits designed for the study of 22q11.2 and other genomic regions previously associated with syndromic CHD, we performed MLPA in 55 pregnancies with fetuses presenting CHD, normal karyotype and negative FISH results for 22q11.2 microdeletion, which constitutes the largest prenatal series reported. Definitive MLPA results were obtained in 50 pregnancies, and in this setting such MLPA kits did not detect any imbalance. On the other hand, to compare FISH and MLPA techniques for the study of 22q11.2 microdeletions, we performed MLPA in 4 pregnancies known to have 22q11.2 deletions (by FISH). All four 22q11.2 microdeletions were also detected by MLPA, which corroborates that it is a reliable technique for the diagnosis and characterization of 22q11.2 deletions. Finally, we evaluated the possibility of replacing conventional FISH by MLPA for the prenatal diagnosis of CHD, comparing the diagnostic potential, results delivery times, repetition and failure rates and cost of both techniques, and concluded that FISH should still be the technique of choice for the prenatal diagnosis of fetuses with CHD.     

染色体微阵列分析技术在2600例流产物中的应用

染色体微阵列分析(chromosomal microarray analysis, CMA)是一种通过对染色体进行全基因组扫描来筛查染色体数目和结构异常的检测技术,是儿科和产前遗传诊断的常规工具,已被应用于流产病因分析。本研究应用CMA技术在全基因组水平分析引起流产的染色体异常情况,并评估该技术在临床流产中的应用价值。对收集的2600例流产样本进行CMA技术检测,成功检测了2505例,成功率高达96.3%,其中1021例用CytoScan Optima芯片进行检测,1211例用CytoScan 750K芯片进行检测,273例用CytoScan HD芯片进行检测。利用这3种芯片共检出967例(38.60%)样本发生染色体异常,其中通过CytoScan Optima芯片检出506例(50.00%),CytoScan 750K芯片检出388例(32.00%),CytoScan HD芯片检出73例(26.74%)。在967例染色体异常中,有801例(82.83%)发生染色体数目异常,94例(9.72%)发生染色体结构异常,56例(5.79%)发生嵌合体,16例(1.65%)检出纯合区域。本研究结果表明,CMA可应用于临床流产物的遗传学诊断,是一种可靠、稳定、高分辨的技术,其检测结果能够对再生育风险评估提供指导。     

早幼粒细胞白血病分子遗传学诊疗技术在临床中的应用

目的:综合多种急性早幼粒细胞白血病(APL)分子遗传学检测方法,比较染色体核型分析(CC)检测方法在临床诊疗中的应用优势.方法:采用急性早幼粒细胞白血病(APL)临床诊断中常用的分子生物学(反转录筑巢式聚合酶链反应--Rf-nest-PCR)、细胞形态学和荧光原位杂交(FISH)方法分别对83例来本院初、复诊的APL患者的骨髓标本进行分析,将结果分别与染色体核型分析(CC)的结果进行比较.结果:83例APL患者中染色体诊断出现典型的t(15;17)异位为79例,占总人数的95.2％;2例出现复杂染色体变化即t(15;17)+7和t(15;17)+9,占总人数的2.4％;1例出现t(11;17)异-位,占总人数的1.2％;1例为正常.PCR对融合基因检测阳性率为92.8％;细胞形态学检测结果阳性率为92.8％;荧光原位杂交阳性率为97.6％.结论:染色体核型分析是对APL疾病诊断的可靠法,特别是在对一些复杂核型的判断上相对于PCR和细胞形态学以及FISH的检测方法上均有很大优势,是其他诊断方法无法取代的.     

Application of fetal DNA detection in maternal plasma: a prenatal diagnosis unit experience.

Non-invasive prenatal diagnosis tests based on the analysis of fetal DNA in maternal plasma have potential to be a safer alternative to invasive methods. So far, different studies have shown mainly fetal sex, fetal RhD, and quantitative variations of fetal DNA during gestation with fetal chromosomal anomalies or gestations at risk for preeclampsia. The objective of our research was to evaluate the use of fetal DNA in maternal plasma for clinical application. In our study, we have established the methodology needed for the analysis of fetal DNA. Different methods were used, according to the requirements of the assay. We have used quantitative fluorescent polymerase chain reaction (QF-PCR) to perform fetal sex detection with 90% sensitivity. The same technique permitted the detection of fetal DNA from the 10th week of gestation to hours after delivery. We have successfully carried out the diagnosis of two inherited disorders, cystic fibrosis (conventional PCR and restriction analysis) and Huntington disease (QF-PCR). Ninety percent of the cases studied for fetal RhD by real-time PCR were correctly diagnosed. The detection of fetal DNA sequences is a reality and could reduce the risk of invasive techniques for certain fetal disorders in the near future.     

孕中期超声联合无创产前基因筛查在检出染色体异常胎儿中的应用价值

摘要 目的：孕中期超声联合无创产前基因筛查（NIPT）在染色体异常胎儿检出中的应用价值。方法：选取2019年8月～2021年12月在石家庄市妇幼保健院产前检查的2000例孕中期孕妇,均接受超声检查和NIPT筛查。以羊水穿刺或引产后高通量测序结果为金标准,四格表法分析孕中期超声联合NIPT在染色体异常胎儿检出中的应用价值。结果：2000例孕中期孕妇中,超声检查共检出软指标异常37例,结构指标异常30例。NIPT筛查检出高风险孕妇17例,其中21-三体综合征11例、18-三体综合征6例。超声软指标和结构指标联合NIPT诊断胎儿染色体异常的灵敏度、特异度、阳性预测值、阴性预测值、漏诊率、误诊率、准确率分别为95.00%、99.95%、95.00%、99.95%、5.00%、0.05%、99.90%。结论：联合孕中期超声和NIPT可提高检出高风险染色体异常胎儿的灵敏度,降低漏诊率,对于早发现染色体异常胎儿具有重要价值,进而提高生育质量。     

Molecular karyotyping and aneuploidy detection in Arabidopsis thaliana using quantitative fluorescent polymerase chain reaction

Certain cellular processes are sensitive to changes in gene dosage. Aneuploidy is deleterious because of an imbalance of gene dosage on a chromosomal scale. Identification, classification and characterization of aneuploidy are therefore important for molecular, population and medical genetics and for a deeper understanding of the mechanisms underlying dosage sensitivity. Notwithstanding recent progress in genomic technologies, limited means are available for detecting and classifying changes in chromosome dose. The development of an inexpensive and scalable karyotyping method would allow rapid detection and characterization of both simple and complex aneuploid types. In addition to the problem of karyotyping, genomic and molecular genetic studies of aneuploids and polyploids are complicated by multiple heterozygous combinations possible at loci present in more than two copies. Quantitative scoring of allele genotypes would enable large-scale population genetic experiments in polyploids, and permit genetic analyses on bulked populations in diploid species. Here, we demonstrate that quantitative fluorescent-polymerase chain reaction (QF-PCR) can be used to simultaneously genotype and karyotype aneuploid and polyploid Arabidopsis thaliana. Comparison of QF-PCR with flow cytometric determination of nuclear DNA content indicated near perfect agreement between the methods, but complete karyotype resolution was only possible using QF-PCR. A complex karyotype, determined by QF-PCR, was validated by comparative genomic hybridization to microarrays. Finally, we screened the progeny of tetraploid individuals and found that more than 25% were aneuploid and that our artificially induced tetraploid strain produced fewer aneuploid individuals than a tetraploid strain isolated from nature.     

Chromosomal mosaicism detected by karyotyping and chromosomal microarray analysis in prenatal diagnosis

To investigate the incidence and clinical significance of chromosomal mosaicism (CM) in prenatal diagnosis by G-banding karyotyping and chromosomal microarray analysis (CMA). This is a single-centre retrospective study of invasive prenatal diagnosis for CM. From 5758 karyotyping results and 6066 CMA results, 104 foetal cases with CM were selected and analysed further. In total, 50% (52/104) of foetal cases with CM were affected by ultrasound-detectable phenotypes. Regardless of whether they were singleton or twin pregnancies, isolated structural defects in one system (51.35%, 19/37 in singletons; 86.67%, 13/15 in twins) and a single soft marker (18.92%, 7/37 in singletons; 13.33%, 2/15 in twins) were the most common ultrasound anomalies. Mosaic autosomal trisomy (19.23%, 20/104) was the most frequent type, and its rate was higher in phenotypic foetuses (28.85%, 15/52) than in non-phenotypic foetuses (9.62%, 5/52). There was no difference in mosaic fractions between phenotypic and non-phenotypic foetuses based on specimen sources or overall classification. Discordant mosaic results were observed in 16 cases (15.38%, 16/104) from different specimens or different testing methods. Genetic counselling and clinical management regarding CM in prenatal diagnosis remain challenging due to the variable phenotypes and unclear significance. Greater caution should be used in prenatal counselling, and more comprehensive assays involving serial ultrasound examinations, different specimens or testing methods verifications and follow-up should be applied.     

Somatic chromosomal abnormalities in infertile men and women

Infertility--the inability to achieve conception or sustain a pregnancy through to live birth--is very common and affects about 15% of couples. While chromosomal or genetic abnormalities associated with azoospermia, severe oligozoospermia or primary ovarian failure were of no importance for reproduction prior to the era of in vitro fertilization (IVF) and intracytoplasmic sperm injection (ICSI), advances in assisted reproductive techniques (ART) now enable many infertile couples to have children. These developments have raised the question of the genetic consequences of ICSI: concerns of the potential harm of the invasive procedure and concerns about the genetic risk. The infertile male and female definitely have an increased risk to carry a chromosomal abnormality. Detection of such an abnormality is of fundamental importance for the diagnosis of infertility, the following treatment, the evaluation of the risk for the future child and the appropriate management of the pregnancy to be obtained. Therefore, cytogenetic screening of both partners is mandatory prior to any type of ART. The present review is based on several surveys on male and female infertility and analyzes the types and frequencies of the different reported chromosome abnormalities according to the type of impairment of spermatogenesis and the type of treatment planned or performed. With regard to assisted reproductive techniques (especially ICSI) the main types of chromosomal abnormalities are discussed and their potential risks for ICSI. If available, reported cases of performed ICSI and its outcome are presented. The detection of an abnormal karyotype should lead to comprehensive genetic counselling, which should include all well-known information about the individual type of anomaly, its clinical relevance, its possible inheritance, the genetic risk of unbalanced offspring, and the possibilities of prenatal diagnosis. Only this proceeding allows at-risk couples to make an informed decision regarding whether or not to proceed with ART. These decisions can be made only when both partners have clearly understood the genetic risks and possible consequences when ART is used.     

Chromosomal microarray analysis for pregnancies with abnormal maternal serum screening who undergo invasive prenatal testing

Recently, chromosomal microarray analysis (CMA) has been implemented as a first-tier test in pregnancies with ultrasound anomalies. However, its application for pregnancies with abnormal maternal serum screening (AMSS) only is not widespread. This study evaluated the value of CMA compared to traditional karyotyping in pregnancies with increased risk following first- or second-trimester maternal serum screening. Data from 3973 pregnancies with referral for invasive prenatal testing following AMSS were obtained from April 2016 to May 2020. Routine karyotyping was performed and single nucleotide polymorphism array was recommended. The foetuses were categorized according to the indications as AMSS only (group A) and AMSS with ultrasound anomalies (group B). CMA was performed on 713 prenatal samples. The proportion of women opting for CMA testing in both groups increased over the years. The incremental yield of clinically significant findings for pregnancies with high risk of screening results was similar to that for the foetuses with ultrasound soft markers (P > 0.05), but significantly lower than that for the foetuses with structural anomalies (P < 0.05). The total frequencies of variants of unknown significance in groups A and B showed no significant difference (P > 0.05). CMA should be performed for pregnant women undergoing prenatal invasive testing due to AMSS, especially with high-risk results, regardless of ultrasound findings.     

Maternal cell contamination of cultures of spontaneous abortion fibroblasts: importance for cytogenetic analysis of embryonic lethality

The results of standard cytogenetic analysis of the long-term cultures of embryonic fibroblasts of 478 first-trimester spontaneous abortions were retrospectively reviewed. In 16% of embryos with cytogenetically confirmed karyotype 46,XX, the Y chromosome was found by molecular genetic methods. Prior to obtaining the chromosome preparations, the cell cultures of Y chromosome-carrying embryos were maintained for a longer period than the cultures of embryos without the Y chromosome. Thus, a late entry of a culture into the logarithmic growth phase serves as marker of maternal cell contamination. We developed a mathematic model for assessment of karyotype incidence and the "sex ratio" of spontaneous abortions, taking into account risk of maternal cell contamination in extraembryonic tissue cultures. Thus estimated, the incidence of chromosomal abnormalities in the studied sample increased from 54.6 to 60.3% and the expected sex ratio increased from 0.66 to 1.02 in abortions with normal karyotype. Using molecular analysis of inheritance of polymorphic DNA markers of six autosomes (2, 11, 16, 19, 20, and 21), the proposed model was tested on 60 embryos with karyotype 46,XX and their parents. Numerical chromosome abnormalities were revealed in uncultured tissues of seven abortions (11.7%), including four without the Y chromosome, which is in a good agreement with the expected incidence of karyotype abnormalities (8.3%) predicted by our model. In view of this, estimating risk of maternal cell contamination in embryonic cell cultures seems necessary for correctly assessing the effect of natural selection in humans, for understanding the mechanisms that determine the sex ratio, and for evaluating the precision of prenatal cytogenetic diagnosis of chromosomal abnormalities.     

The combined QF-PCR and cytogenetic approach in prenatal diagnosis

In this study, the importance of quantitative fluorescence polymerase chain reaction (QF-PCR) aneuploidy diagnosis test which provides earlier and easier results were discussed. The cell cultures and DNA isolations were performed on 100 amniotic fluids. DNA isolations were made from peripheral blood samples of mothers who had blood-stained amniotic fluid samples. The reasons of references of these pregnant women to our division were increased maternal age, positive double/triple screening test and fetal anomaly history. QF-PCR applied to 19 short tandem repeat markers in the chromosomes 13, 18, 21 and genes X and Y chromosomes. All electropherogram peaks were evaluated on ABI3130. Thirty two (32 %) samples have high maternal age, seven (7 %) have fetal anomaly and the others have double/triple screening test positivity. Ninety-nine (99 %) of the 100 amniotic fluid samples were resulted, but one (1 %) of them could not examined because of the culture failure. The maternal contamination rates were determined as 3 %. Of 100 samples, 2 had trisomy 21 (2 %), 1 had trisomy 13 (1 %), 1 had structural abnormalities (1 %) and the others (97 %) have not any aneuploidy. The results of QF-PCR were in compatible with the results of cell culture and chromosome analysis. Although QF-PCR is an easier and an earlier test, it has a limitation of not to able to scan full genome. It is also sensitive for maternal contamination, so it should be tested together with maternal blood samples. QF-PCR aneuploidy test is the fastest diagnostic test for prenatal diagnosis and so it provides less stressful period for pregnant women.     

超声心动图检查指标与胎儿染色体异常的相关性

摘要 目的：探究超声心动图检查指标与胎儿染色体异常之间的相关性。方法：选择2017年1月至2020年1月于我院接受产前超声心动图检查的980例高危产妇为研究对象,均对其开展超声心动图以及染色体核型检测,记录受检者染色体核型异常具体情况,筛选出染色体核型异常产妇（80例）作为研究组,设另900例染色体正常产妇为对照组,就两组产妇的超声心动图检查指标左心室Tei指数、右心室Tei指数以及颈项透明层厚度（NT）值差异进行比较,Spearman相关性分析探究上述超声心动图指标的相关性,最后绘制心动图指标对染色体异常的诊断ROC曲线图并计算AUC值。结果：（1）比较显示研究组胎儿的左心室Tei指数、右心室Tei指数和NT值均明显的高于对照组胎儿,组间差异具有统计学意义（P<0.05）;（2）相关性分析显示NT值同染色体异常胎儿的左心室Tei值、右心室Tei值均呈现明显的正相关联系（r=0.8927,r=0.9315,P<0.0001）;（3）ROC曲线绘制显示左心室Tei值、右心室Tei值和NT值对胎儿染色体异常的诊断AUC分别为0.9889、0.7574、0.7959（P<0.05）。结论：超声心动图检查指标同胎儿的染色体异常之间存在明显的关联性,可以考虑将超声心动图作为胎儿染色体异常的初筛手段,推广于临床应用。     

Detection of DNA in Human Blastocyst Cavity Aspirate by Multiplex PCR

Preimplantation genetic testing (PGT) is a modern method of detection of chromosomal and genetic abnormalities in a human embryo before its transfer to the uterus. The genetic material is obtained by embryo biopsy. Here, we attempted to evaluate the efficiency of a method of noninvasive biopsy—aspiration of the blastocoel contents (blastocentesis) of human embryos. In this study, a biopsy was carried out human embryos with low morphological characteristics (3–4 CC according to Gardner grading) on day 6–7 of development. DNA obtained from the aspirate, as well as from the blastocyst, was analyzed by QF-PCR (quantitative fluorescent polymerase chain reaction) after whole genome amplification. In total, 24 blastocysts and aspirate samples obtained from them were analyzed; assayable DNA was found in seven (29%) aspirate samples from the blastocyst cavity, and this DNA was identical to blastocyst DNA in five (71%) cases. Thus, it was shown that, using aspiration of the blastocoel fluid of the human embryo, it is possible to obtain DNA suitable for analysis by molecular genetic methods. The features and advantages of the use of multiplex QF-PCR method combined with whole genome amplification for studying DNA obtained during aspiration of the blastocoel fluid are discussed. The prospects of DNA obtainment by the noninvasive biopsy method for preimplantation genetic testing (PGT) in the routine practice of infertility treatment and prevention of chromosomal and genetic abnormalities in newborns are considered.     

Spectrum of Cytogenomic Abnormalities Revealed by Array Comparative Genomic Hybridization on Products of Conception Culture Failure and Normal Karyotype Samples

Approximately 30% of pregnancies after implantation end up in spontaneous abortions, and 50% of them are caused by chromosomal abnormalities. However, the spectrum of genomic copy number variants(CNVs) in products of conception(POC) and the underlying genedosage-sensitive mechanisms causing spontaneous abortions remain largely unknown. In this study, array comparative genomic hybridization(a CGH) analysis was performed as a salvage procedure for 128 POC culture failure(POC-CF) samples and as a supplemental procedure for106 POC normal karyotype(POC-NK) samples. Chromosomal abnormalities were detected in 10% of POC-CF and pathogenic CNVs were detected in 3.9% of POC-CF and 5.7% of POC-NK samples. Compiled results from this study and relevant case series through a literature review demonstrated an abnormality detection rate(ADR) of 35% for chromosomal abnormalities in POC-CF samples, 3.7% for pathogenic CNVs in POC-CF samples, and 4.6% for pathogenic CNVs in POC-NK samples. Ingenuity Pathway Analysis(IPA) was performed on the genes from pathogenic CNVs found in POC samples. The denoted primary gene networks suggested that apoptosis and cell proliferation pathways are involved in miscarriage. In summary, a similar spectrum of cytogenomic abnormalities was observed in POC culture success and POC-CF samples. A threshold effect correlating the number of dosage-sensitive genes in a chromosome with the observed frequency of autosomal trisomy is proposed. A rationalized approach using firstly fluorescence in situ hybridization(FISH) testing with probes of chromosomes X/Y/18, 13/21, and 15/16/22 for common aneuploidies and polyploidies and secondly a CGH for other cytogenomic abnormalities is recommended for POC-CF samples.     

胎儿肢体畸形的超声诊断与染色体异常的相关性分析

目的：总结肢体畸形胎儿的超声诊断与染色体核型诊断结果,分析胎儿肢体畸形时超声诊断与染色体异常的相关性。方法：以孕18—32周的健康自愿者作为对照组（A组）,以同期超声诊断异常者作为观察组（B组）,两组均行超声及染色体检查。对比其染色体核型的检出情况;并以胎儿的超声诊断结果为自变量,以各染色体核型为因变量进行logistic回归分析。结果：A组染色体异常的检出率为2．1,与之相比,B组染色体异常检出率有明显升高,且染色体核型异常以47,XY,＋18、47,XX＋21和47,XXX为主,差异有统计学意义,P〈0．05;logistic分析结果显示,染色体核型异常与胎儿肢体比例失调、四肢短小、肢体非功能位的OR值分别为6．332、7．404、5．98l,P〈0．05,差异显著。结论：胎儿肢体畸形患者染色体异常的诊出率较健康人群明显增高,染色体核型异常与超声诊断为胎儿肢体比例失调、四肢短小、肢体非功能位的比例呈正相关。