Detección rápida de aneuploidías para la definición de incompatibilidad con la vida extrauterina independiente / Rapid detection of aneuploidies for definition of incompatibility with independent extrauterine life

OBJETIVO: Analizar la implementación de la prueba rápida de reacción en cadena de la polimerasa cuantitativa y fluorescente (QF-PCR) para la detección de aneuploidías. MÉTODO: Se incluyeron todas las pacientes que se realizaron una QF-PCR entre septiembre de 2017 y mayo de 2021. En todos los casos se consignaron los datos clínicos, ecográficos y de laboratorio, y se efectuó un seguimiento de quienes se realizaron además cariograma y su resultado fue normal. RESULTADOS: Se realizaron 213 procedimientos invasivos genéticos prenatales, siendo 72 para detección rápida de aneuploidía mediante QF-PCR. El promedio de edad de las madres con QF-PCR fue de 37 años y 48 pacientes (67%) tenían menos de 15 semanas de gestación. La QF-PCR demostró aneuploidía de los cromosomas 18, 13 y de triploidía en 21 de 49 casos informados como anormales. De los 22 casos sin sugerencia de alteración, 17 accedieron a proseguir el estudio con cariotipo, que resultó anormal en 6 casos. Hubo 4 casos de discordancia entre la QF-PCR y el cariotipo, que pudo afectar el manejo clínico de la gestación. En 25/72 casos (34,7%) la aneuploidía era letal. CONCLUSIONES: Considerando la necesidad de tener un diagnóstico rápido, pero también completo y que permita un consejo genético apropiado, debería integrarse la QF-PCR a un protocolo de diagnóstico que considere variables clínicas y ecográficas.

OBJECTIVE: To analyze the performance of QF-PCR test for the detection of aneuploidies. METHOD: All patients who underwent QF-PCR from September 2017 to May 2021, were included. Clinical, ultrasound and laboratory data were recorded in all cases, as well as follow-up of the cases, including those performing karyotype and the result was normal. RESULTS: 213 prenatal genetic invasive procedures were performed in the study period, 72 for rapid detection of aneuploidy by QF-PCR. 48 patients (67%) were less than 15 weeks at the time of ultrasound diagnosis. The QF-PCR test demonstrated aneuploidy of chromosomes 18, 13, and triploidy in 21/49 cases reported as abnormal. Of the cases without suggestion of alteration (22), 17 agreed to continue the study with a karyotype, which was abnormal in 6 cases. There were 4 cases of discrepancy between QF-PCR and karyotype, which could affect the clinical management of pregnancy. 25/72 cases (34. 7%) corresponded to lethal aneuploidy. CONCLUSIONS: Our results justify the use of QF-PCR. Considering the need to have a rapid diagnosis, but also complete and that allows appropriate genetic counseling, it is that QF-PCR should be integrated into a protocol that considers clinical and ultrasound variables.

Validation of QF-PCR for prenatal diagnoses in a Brazilian population

OBJECTIVES: Quantitative fluorescence polymerase chain reaction (QF-PCR) is a rapid and reliable method for screening aneuploidies, but in Brazil, it is not used in public services. We investigated the accuracy of QF-PCR for the prenatal recognition of common aneuploidies and compared these results with cytogenetic results in our laboratory. METHOD: A ChromoQuant QF-PCR kit containing 24 primer pairs targeting loci on chromosomes 21, 13, 18, X and Y was employed to identify aneuploidies of the referred chromosomes. RESULTS: A total of 162 amniotic fluid samples analyzed using multiplex QF-PCR were compared with karyotyping analysis. The QF-PCR results were consistent with the results of cytogenetic analysis in 95.4% of all samples. CONCLUSION: QF-PCR was demonstrated to be efficient and reliable for prenatal aneuploidy screening. This study suggests that QF-PCR can be used as a rapid diagnostic method. However, rearrangements and some mosaic samples cannot be detected with this test; thus, those exceptions must undergo cytogenetic analysis.

Frequency of Chromosomal Abnormalities in Products of Conception / Frequência de anomalias cromossômicas em material de aborto

Abstract Purpose To describe the frequencies of chromosomal abnormalities found in abortion material, and to observe its correlation to maternal age. Methods A retrospective study was conducted based on data obtained from the databank of a medical genetics laboratory in Belo Horizonte, MG, Brazil. A total of 884 results from products of conception analysis were included, 204 of which were analyzed by cytogenetics, and 680bymolecular biology basedon quantitative fluorescence polymerase chain reaction (QF-PCR). The frequency of individual chromosomal aberrations and the relationship between the presence of anomalies and maternal age were also evaluated. Results The conventional cytogenetics technique was able to detect 52% of normal and 48% of abnormal results in the analyzed material. Quantitative fluorescence polymerase chain reaction revealed 60% of normal and 40% of abnormal results from the samples evaluated by this method. The presence of trisomy 15 was detected only by cytogenetics, as it was not included in the QF-PCR routine investigation in the laboratory. A significant increase in abnormal results was observed among women aged 35 years or older compared with younger women (p = 0.02). Conclusion Chromosomal aberrations are still a major cause of spontaneous abortion, and the conventional cytogenetics technique is efficient for miscarriage material analysis, but molecular methods such as QF-PCR are adequate complementary strategies to detect the major chromosomal anomalies, leading to technical reports with reliable results.

Resumo Objetivos Descrever a frequência de anomalias cromossômicas encontradas em material de aborto, e observar se estas estão relacionadas com a idade materna. Métodos Foi realizado um estudo retrospectivo no banco de dados de um laboratório de genética médica em Belo Horizonte, MG. O estudo incluiu 204 resultados avaliados por citogenética, e 680 resultados por biologia molecular baseada em reação em ensaio fluorescente da reação em cadeia da polimerase (QF-PCR), totalizando um número de 884 análises. A frequência de diferentes anomalias cromossômicas e a relação entre a presença de anomalias e a idade materna também foi avaliada. Resultados A citogenética convencional foi capaz de detectar 52% de resultados normais e 48% de resultados anormais no material analisado. A QF-PCR revelou 60% de resultados normais e 40% de anormais nas amostras avaliadas por esta técnica. A presença da trissomia 15 foi detectada por citogenética,mas até então não era incluída na investigação por QF-PCR no laboratório. Umaumento significativo na quantidade de resultados anormais foi observado em mulheres comidade de 35 anos ou mais, quando comparado a mulheres mais jovens (p = 0,02). Conclusão As aberrações cromossômicas são causas importantes de abortos espontâneos, e o estudo citogenético é eficaz para a análise das amostras de material de aborto, mas as técnicas moleculares, como a QF-PCR, representam métodos complementares adequados para detectar as principais anomalias cromossômicas, possibilitando a liberação de laudos com resultados confiáveis.

Effective Method for Extraction of Cell-Free DNA from Maternal Plasma for Non-Invasive First-Trimester Fetal Gender Determination: A Preliminary Study

PURPOSE: To find the most effective method for extraction of cell-free DNA (cf-DNA) from maternal plasma, we compared a blood DNA extraction system (blood kit) and a viral DNA extraction system (viral kit) for non-invasive first-trimester fetal gender determination. MATERIALS AND METHODS: A prospective cohort study was conducted with maternal plasma collected from 44 women in the first-trimester of pregnancy. The cf-DNA was extracted from maternal plasma using a blood kit and a viral kit. Quantitative fluorescent-polymerase chain reaction (QF-PCR) was used to detect the SRY gene and AMEL gene. The diagnostic accuracy of the QF-PCR results was determined based on comparison with the final delivery records. RESULTS: A total of 44 women were tested, but the final delivery record was only obtained in 36 cases which included 16 male-bearing and 20 female-bearing pregnancies. For the blood kit and viral kit, the diagnostic accuracies for fetal gender determination were 63.9% (23/36) and 97.2% (35/36), respectively. CONCLUSION: In non-invasive first-trimester fetal gender determination by QF-PCR, using a viral kit for extraction of cf-DNA may result in a higher diagnostic accuracy.

Validation of QF-PCR for Rapid Prenatal Diagnosis of Common Chromosomal Aneuploidies in Korea

PURPOSE: Quantitative fluorescent polymerase chain reaction (QF-PCR) allows for the rapid prenatal diagnosis of common aneuploidies. The main advantages of this assay are its low cost, speed, and automation, allowing for large-scale application. However, despite these advantages, it is not a routine method for prenatal aneuploidy screening in Korea. Our objective in the present study was to validate the performance of QF-PCR using short tandem repeat (STR) markers in a Korean population as a means for rapid prenatal diagnosis. MATERIALS AND METHODS: A QF-PCR assay using an Elucigene kit (Gen-Probe, Abingdon, UK), containing 20 STR markers located on chromosomes 13, 18, 21, X and Y, was performed on 847 amniotic fluid (AF) samples for prenatal aneuploidy screening referred for prenatal aneuploidy screening from 2007 to 2009. The results were then compared to those obtained using conventional cytogenetic analysis. To evaluate the informativity of STR markers, the heterozygosity index of each marker was determined in all the samples. RESULTS: Three autosomes (13, 18, and 21) and X and Y chromosome aneuploidies were detected in 19 cases (2.2%, 19/847) after QF-PCR analysis of the 847 AF samples. Their results are identical to those of conventional cytogenetic analysis, with 100% positive predictive value. However, after cytogenetic analysis, 7 cases (0.8%, 7/847) were found to have 5 balanced and 2 unbalanced chromosomal abnormalities that were not detected by QF-PCR. The STR markers had a slightly low heterozygosity index (average: 0.76) compared to those reported in Caucasians (average: 0.80). Submicroscopic duplication of D13S634 marker, which might be a unique finding in Koreans, was detected in 1.4% (12/847) of the samples in the present study. CONCLUSION: A QF-PCR assay for prenatal aneuploidy screening was validated in our institution and proved to be efficient and reliable. However, we suggest that each laboratory must perform an independent validation test for each STR marker in order to develop interpretation guidelines of the results and must integrate QF-PCR into the routine cytogenetic laboratory workflow.

A Case of a 46,XX Male with SRY Gene

46,XX male is a rare sex constitution characterized by the development of bilateral testis in persons who lack a Y chromosome. Manifestations of 46,XX males are usually hypogonadism, gynecomastia, azoospermia, and hyalinations of seminiferous tubules. The incidence of XX male reversal is approximately 1 in 20,000 male neonates. The SRYgene is located at the short arm of the Y chromosome(Yp11.31) and codes for testis determining factor in humans. Here, the patient, who presented with a normal male phenotype, was referred for azoospermia. Conventional cytogenetic analysis showed a 46,XX karyotype. Quantitative fluorescent polymerase chain reaction(QF-PCR) and Multiplex PCR studies identified SRY gene. And, Fluorescence In Situ Hybridization(FISH) confirmed the SRY gene on the distal short arm of chromosome X. We identified the SRY gene on the distal short arm of chromosome X by molecular cytogenetic and molecular analyses. Therefore, molecular-cytogenetics and molecular studies were proved to be clinically useful adjunctive tool to conventional prenatal cytogenetic analysis.