ABSTRACT
INTRODUCCIÓN: En Chile, la norma técnica de la Ley N° 21.030 de 2017 considera tres aneuploidías como letales; las trisomías 9, 13 y 18, cuyo diagnóstico se confirma con un cariograma. No existe a la fecha registro nacional de frecuencia prenatal de estas patologías. OBJETIVO: Determinar la frecuencia de trisomías 9, 13 y 18 en los estudios citogenéticos prenatales en muestras de células obtenidas con amniocentesis y cordocentesis, procesados en el Laboratorio de Citogenética del Hospital Clínico Universidad de Chile. MATERIALES Y MÉTODOS: Estudio descriptivo y retrospectivo de los resultados de cariograma de líquido amniótico (LA) y sangre fetal (SF), procesados desde enero de 2000 a diciembre de 2017. RESULTADOS: Se incluyeron 2.305 muestras (402 de SF y 1.903 de LA), de ellas 442 (19%) fueron trisomías letales (TL), dentro de ellas fueron TL libres 416 (95%), TL estructurales 15 (2,7%) y mosaicos 11 (2,3%). La trisomía 18 fue en ambos tipos de muestra la más frecuente (73,5%), seguida de trisomía 13 (24,2%) y trisomía 9 (2,3%). Se desglosan resultados conforme al tipo de TL, muestra, motivo de derivación, edad materna y edad gestacional. CONCLUSIONES: El cariograma confirma el diagnóstico de aneuploidías y aporta datos relevantes para el consejo genético. La cromosomopatía letal más frecuente fue la trisomía 18. Se observó que uno de cada cinco cariogramas referidos por anomalías congénitas y/o marcadores de aneuploidía revelaban una TL.
INTRODUCTION: In Chile, the technical standard of Law No. 21,030 of 2017 considers three aneuploidies as lethal; trisomies 9, 13 and 18, whose diagnosis is confirmed with a Karyotype. To date there is not a national registry of prenatal frequency of these pathologies. OBJECTIVE: To determine the frequency of trisomies 9, 13 and 18 in prenatal cytogenetic studies in samples of cells obtained with amniocentesis and cordocentesis, processed in the Cytogenetics Laboratory of the Universidad de Chile Clinical Hospital. MATERIALS AND METHODS: Descriptive and retrospective study of the results of karyotypes of amniotic fluid (LA) and fetal blood (SF) processed from January 2000 to December 2017. Results: 2,305 samples (402 of SF and 1,903 of LA) were included, of which 438 (19%) were lethal trisomies (TL), corresponding to free TL 416 (95%), structural TL 12 (2,7%) and mosaics 10 (2.3%). Trisomy 18 was the most frequent in both types of sample (73,5 %), followed by trisomy 13 (24,2%) and trisomy 9 (2.3%). RESULTS are shown according to the type of TL, sample, reason for referral, maternal age and gestational age. CONCLUSIONS: The karyotype confirms the diagnosis of aneuploidies and provides relevant data for genetic counseling. The most frequent lethal chromosomopathy was trisomy 18. It was observed that one in five karyotypes referred for congenital anomalies and / or aneuploidy markers revealed a TL.
Subject(s)
Humans , Female , Pregnancy , Adolescent , Adult , Middle Aged , Young Adult , Prenatal Diagnosis/methods , Cytogenetic Analysis , Trisomy 13 Syndrome/diagnosis , Trisomy 18 Syndrome/diagnosis , Prenatal Diagnosis/statistics & numerical data , Trisomy , Epidemiology, Descriptive , Retrospective Studies , Fetal Blood , Karyotype , Trisomy 13 Syndrome/genetics , Trisomy 13 Syndrome/epidemiology , Trisomy 18 Syndrome/genetics , Trisomy 18 Syndrome/epidemiology , Amniocentesis , Amniotic Fluid , AneuploidyABSTRACT
OBJECTIVE: Advanced paternal age is related to poor sperm quality; however, little is known on its effect on aneuploidy embryo rates and, more importantly, on chromosomal abnormalities like trisomy 21, 18 and 13. The objective of this study was to evaluate the effect of advanced paternal age on the trisomy rates of the chromosomes 21, 18 or 13 in embryos obtained from donated oocytes. METHODS: A total of 378 embryos, obtained from 52 IVF/ICSI cycles with donated oocytes in conjunction with PGD, were allocated according to paternal age in three groups: Group A: ≤39 years (n=115 embryos), Group B: 40-49 years (n=157 embryos) and Group C: ≥50 year (n=106 embryos). Fertilization rates, embryo quality at day 3, blastocysts development, and aneuploidy embryo rates were then compared. RESULTS: There was no difference in seminal parameters (volume, concentration and motility) in the studied groups. Fertilization rate, percentages of zygotes that underwent cleavage, and good-quality embryos on Day 3 were similar between the three groups evaluated. The group of men ≥50 years had significantly more sperm with damaged DNA, higher global aneuploidy rates, and significantly more embryos with trisomy 21, 18 or 13 compared to the other two evaluated groups (p<0.05). CONCLUSIONS: Our data shows that advanced paternal age increases global chromosomal abnormalities, and percentages of trisomy 21, 18 or 13 in embryos, and such effect is significantly important as of the age of 50. Embryo genetic screening is highly recommended in patients in which paternal age is ≥50 years old.