A 10-year retrospective study on prenatal cytogenetic analyses

Objective: To analyze the indications and results of prenatal cytogenetic screening in patients from a specialized center in Xiamen City, China, to provide a reference database for prenatal diagnosis. Materials and Methods: This retrospective, observational study included 7,400 pregnant women who underwent chorionic villous sampling (CVS), amniocentesis or cordocentesis at the Women and Children's Hospital, School of Medicine, Xiamen University, China, over a 10-year period (2008–2018). Clinical data and the results of the cytogenetic analysis were assessed. Results: Fetal chromosomal aberrations were observed in 335 of 7,400 (4.5%) cases, with trisomy 21 the most common aberration (87/335, 26%). A high risk on maternal serum screening was the indication for cytogenetic analysis in 36 of the 87 fetuses with trisomy 21 (41.4%). Abnormal fetal ultrasonographic findings were the clinical indication for cytogenetic testing in more than half of fetuses with abnormal karyotypes (181/335, 54%). Conclusions: Prenatal cytogenetic analysis is useful for the prenatal diagnosis of birth defects in Xiamen City, and may prevent termination of potentially healthy fetuses.


Introduction
Cytogenetic analysis was introduced in 1976 as a safe and reliable method of prenatal diagnosis [1]. The usefulness of this technique in detecting birth defects and in routine obstetrical work-up has been demonstrated in many countries [2,3]. In mainland China, there are ~15 million births each year, with ~500,000 in the Fujian province. Presently, there are around 60 laboratories in mainland China that conduct ~60,000 prenatal cytogenetic tests each year. Although several papers on this technique have been published, these mainly relate to the evaluation of prenatal screening results. Meanwhile, reports on the use of prenatal screening and cytogenetic tests for prenatal diagnosis in a large population sample are rare in mainland China.
In 2002, we began conducting cytogenetic analysis in our prenatal diagnostic center in the Women and Children's Hospital, School of Medicine, Xiamen University, China, which is a regional referral center for fetuses with suspected anomalies and/or genetic syndromes. It is one of only two prenatal diagnosis centers in the Fujian province, and services at least five surrounding areas. Here we summarize the results of cytogenetic tests conducted in our center for the diagnosis of fetal chromosomal aberrations over a period of 10 years.   [4], pyelectasis (≥4 mm and <10 mm), echogenic intracardiac focus [5], hyperechoic bowel [6], short femur and humerus, and mild cerebral ventriculomegaly in the second trimester [7]. Prenatal cytogenetic analysis was indicated if the parents had a family history of numerical or structural chromosomal aberrations, such as full aneuploidy, polyploidy, mosaicism, deletion, duplication, insertion, inversion, balanced and unbalanced translocation, ring chromosome, and marker chromosome. However, variant chromosomes, such as pericentric inversion of chromosomes 9 and Y, double satellites or marked satellite on acrocentric chromosomes, and hyperchromatin on various chromosomes (e.g., 1, 9, and 16), were considered normal. This included a history of a fetus/child with chromosomal abnormalities or congenital anomalies, and a history of missed or recurrent abortions unexplained death in utero.

Results
Between 2008 and 2018, we performed 7,400 invasive procedures for prenatal cytogenetic analysis in our center ( Table 1).
The 181 fetuses with chromosomal aberrations and abnormal ultrasonographic findings showed the following anomalies: malformations (107 fetuses), soft markers (70 fetuses), and multiple abnormalities (four fetuses, including three with one malformation plus one soft marker and one fetus with two soft markers).

Discussion
The diagnosis of fetal chromosomal abnormalities is one of the most important challenges in modern perinatology. Various methods have been used to identify women who are at risk of carrying a fetus with aneuploidies, including CVS, amniocentesis, and cordocentesis. CVS is the procedure of choice in the first trimester (11-14 weeks of gestation), but it is associated with a 2.3%-3.7% risk of fetal loss [8]. In addition, a major disadvantage of CVS is confined placental mosaicism, which occurs in approximately 1% of cases and necessitates further amniocentesis or cordocentesis. In this study, there were only 44 cases of CVS, which may be attributable to the fact that in our local area, screening tests, such as maternal serum biochemical testing and/or fetal nuchal translucency measurement, are not commonly performed in the first trimester. Amniocentesis and cordocentesis can reliably determine fetal karyotype (and be performed from 16 and 22 weeks of gestation, respectively); however, these procedures are associated fetal mortality rates of 0.5%-1.0% and 1.4% [9], respectively. In our center, the rate of cordocentesis was higher than that in some previous reports, probably because prenatal diagnosis was performed at a higher gestational age. Moreover, 71.9% of the cordocentesis procedures in this study were indicated because of fetal ultrasonographic anomalies, which may have been incorrectly detected as a result of inexperience or a lack of medical technology, etc. Indeed, many fetal abnormalities were detected at less specialized medical institutions prior to a referral to our medical center, resulting in a delay in prenatal diagnostic testing. Basedon our findings, we recommend maternal screening for high risk of fetal abnormalities be performed in the first trimester if possible, as this would decrease the number of cordocentesis procedures and increase the frequency of amniocentesis.
We found the most common indications for prenatal cytogenetic analysis were a high risk on maternal serum screening (38.5%), abnormal fetal ultrasonographic findings (28.9%), and advanced maternal age (22.3%). Among these indications of cytogenetic analysis, parental chromosomal abnormality (15.9%) and abnormal fetal ultrasonographic findings (8.5%) were associated with the highest frequencies of fetal anomaly detection.
Fetal chromosomal aberrations were observed in 4.5% (335/7400) of cases, which is consistent with the rates reported in previous studies on prenatal diagnosis (1.0%-6.7%) [10]. Several studies have shown trisomy 21 is the most common and clinically significant cytogenetic abnormality detected using prenatal diagnostic tests [11]. Similarly, trisomy 21 was the most common chromosomal abnormality detected (26%) in this study, followed by structural chromosomal abnormalities (24.8%), trisomy 18 (24.5%), sex chromosomal abnormalities (18.5%), and trisomy 13 (6.3%). The rate of trisomy 21 in this study is similar to those of previous reports [12]. Among the fetuses with trisomy 21, the highest detection frequency (41.4%) was associated with the clinical indication of a high risk on maternal serum screening. Therefore, we recommend the rate of fetal cytogenetic analysis for high-risk results on maternal serum screening be increased as much as possible.
We found abnormal fetal ultrasonographic findings was the clinical indication for cytogenetic analysis in more than half of the fetuses with chromosomal abnormalities (54%). In fetuses with trisomy 21, the most frequent fetal malformation and sonographic soft marker was cardiac abnormality (37.5%) and increased nuchal translucency (18.8%), respectively, while the most common clinical indication was a high risk on maternal serum screening (41.4%), followed closely by abnormal fetal ultrasonography (36.8%). However, in fetuses with trisomies 18 and 13, multi-deformation was the most common abnormality (42.9% and 76.5%, respectively) and abnormal ultrasonographic findings was the most common clinical indication (59.8% and 81.0%, respectively). We also observed choroid plexus cyst and nuchal cystic hygroma were especially associated with fetal trisomy 18 (26.5%) and 45, X (65.6%), respectively. Therefore, prenatal diagnosis is necessary in the case of high-risk results on maternal serum screening and advanced maternal age (≥35 years), especially if accompanied by abnormal ultrasonographic soft markers. If cytogenetic analysis is performed in patients with high-risk results on maternal serum screening and abnormal fetal ultrasonographic findings, trisomy 18 can be easily detected in a large number of patients. Trisomy 21 was the most common abnormal karyotype in this study. One-third of all pregnancies were associated with abnormal ultrasonographic findings. Maternal serum screening and fetal ultrasonography should be meticulously performed to avoid missing any diagnoses. The detection of several indications for prenatal cytogenetic analysis can improve the rate of detection of fetal chromosomal abnormalities.
In summary, we have identified the most common indications for invasive prenatal cytogenetic tests at a single institution. We reviewed the most common ultrasonographic soft markers used to screen aneuploidy and the clinical relevance of soft markers to detect chromosomal abnormalities. Our findings demonstrate the benefits of prenatal cytogenetic analysis in high-risk groups and provide valuable information for improving prenatal care, including the difficult decision of pregnancy termination in cases of lethal disorders. Finally, our retrospective analysis included data from a large cohort of samples, as well as follow-up data, and thus could be used as a database for genetic counseling.