PDF(727 KB)
嵌合型Y染色体等臂双着丝粒致胎儿主动脉狭窄1例报告及文献复习
全宇璐,张萍萍,罗艳,霍竞,余小平,孙艳美,李亚丽
PDF(727 KB)
PDF(727 KB)
嵌合型Y染色体等臂双着丝粒致胎儿主动脉狭窄1例报告及文献复习
),李亚丽2()Aortic stenosis of fetus caused by chimeric Y-chromosome isobaric double-adherent granules:A case report and literature review
),Yali LI2()目的 通过对先天性主动脉狭窄(AS)胎儿产前诊断结果进行遗传学分析,明确其可能的致病原因。 方法 1例孕25周孕妇,因“胎儿AS”行羊膜腔穿刺术采集羊水,行染色体G显带核型分析联合单核苷酸多态性微阵列(SNP-array)检测。同时采集胎儿父母外周血,行染色体核型分析。 结果 胎儿核型分析,为嵌合型Y染色体等臂双着丝粒;SNP-array分析,胎儿染色体Yp11.31q11.21区段存在11.2 Mb片段的重复,同时Yq11.21q11.23区段存在14.8 Mb片段的缺失。胎儿父母均为正常核型,考虑其为新发变异。经充分遗传咨询后,孕妇及家属选择回当地引产。 结论 嵌合型Y染色体等臂双着丝粒的染色体核型可能是男性胎儿表型为AS的原因,羊水细胞染色体核型分析联合SNP-array检测有助于该病的早期诊断。
Objective To confirm the potential etiological factors of congenital aortic stenosis (AS) by genetic analysis on prenatal diagnostic results of the fetus with AS. Methods Amniocentesis for chromosomal G-band karyotyping combinated with single nucleotide polymorphism array (SNP-array) analysis was conducted on the amniotic fluid collected from a 25-week pregnant woman diagnosed as “fetus AS”; chromosome karyotyping was also performed on the peripheral blood of the fetal parents. Results The fetal karyotype analysis showed a chimeric Y-chromosome isobaric double-adherent granules. The SNP-array analysis results revealed a 11.2 Mb duplication in the Yp11.31q11.21 region and a 14.8 Mb deletion in the Yq11.21q11.23 region. Both the parents presented a normal karyotype, suggesting it was a newfound mutation. After extensive genetic counseling, the pregnant woman and her family chose to terminate the pregnancy locally. Conclusion The chromosomal karyotype of the chimeric Y-chromosome isobaric double-adherent granules may be a contributing factor to the AS phenotype in the male fetus. The combined use of chromosomal karyotyping and SNP-array analysis on the amniotic cells is instrumental in the early diagnosis of the disease.
胎儿 / 先天性心脏病 / 主动脉狭窄 / 产前诊断 / 嵌合型Y染色体等臂双着丝粒
Fetus / Congenital heart disease / Aortic stenosis / Prenatal diagnosis / Chimeric Y-chromosome isobaric double-adherent granules
R714.53
| 1 | VAN DER LINDE D, KONINGS E E, SLAGER M A,et al. Birth prevalence of congenital heart disease worldwide: a systematic review and meta-analysis[J]. J Am Coll Cardiol, 2011, 58(21): 2241-2247. |
| 2 | BUYENS A, GYSELAERS W, COUMANS A, et al. Difficult prenatal diagnosis: fetal coarctation[J]. Facts Views Vis Obgyn, 2012, 4(4): 230-236. |
| 3 | HE Y Q, GUO L, ZHENG L P, et al. Clinical and molecular cytogenetic findings and pregnancy outcomes of fetuses with isochromosome Y[J]. Mol Cytogenet, 2022, 15(1): 32. |
| 4 | LANGE, SKALETSKY H, VAN DAALEN S K,et al. Isodicentric Y chromosomes and sex disorders as byproducts of homologous recombination that maintains palindromes[J]. Cell, 2009, 138(5): 855-869. |
| 5 | WILSON R D, CHITAYAT D, MCGILLIVRAY B C. Fetal ultrasound abnormalities: correlation with fetal karyotype, autopsy findings, and postnatal outcome: five-year prospective study[J]. Am J Med Genet, 1992, 44(5): 586-590. |
| 6 | VAN NISSELROOIJ A E L, JANSEN F A R, VAN GELOVEN N, et al. Impact of extracardiac pathology on head growth in fetuses with congenital heart defect[J]. Ultrasound Obstet Gynecol, 2020, 55(2): 217-225. |
| 7 | ALVAREZ-NAVA F, SOTO M, MARTíNEZ M C, et al. FISH and PCR analyses in three patients with 45, X/46, X, idic(Y) karyotype: clinical and pathologic spectrum[J]. Ann Genet, 2003, 46(4): 443-448. |
| 8 | MIYADO M, MUROYA K, KATSUMI M, et al. Somatically acquired isodicentric Y and mosaic loss of chromosome Y in a boy with hypospadias[J]. Cytogenet Genome Res, 2018, 154(3): 122-125. |
| 9 | BISPO A V, BURéGIO-FROTA P, OLIVEIRA DOS SANTOS L, et al. Y chromosome in Turner syndrome: detection of hidden mosaicism and the report of a rare X;Y translocation case[J]. Reprod Fertil Dev, 2014, 26(8): 1176-1182. |
| 10 | GRAVHOLT C H, ANDERSEN N H, CONWAY G S,et al. Clinical practice guidelines for the care of girls and women with Turner syndrome: proceedings from the 2016 Cincinnati International Turner Syndrome Meeting[J]. Eur J Endocrinol, 2017, 177(3): G1-G70. |
| 11 | CORBITT H, MORRIS S A, GRAVHOLT C H,et al. TIMP3 and TIMP1 are risk genes for bicuspid aortic valve and aortopathy in Turner syndrome[J]. PLoS Genet, 2018, 14(10): e1007692. |
| 12 | GARCIA-ALONSO L, LORENZI V, MAZZEO C I, et al. Single-cell roadmap of human gonadal development[J]. Nature, 2022, 607(7919): 540-547. |
| 13 | ARCHANA S, VIJAYALAKSHMI J, USHA RANI G,et al. The comparison of Y chromosome microdeletion incidence in blood DNA and sperm cell DNA[J]. Mol Biol Rep, 2023, 50(2): 1203-1208. |
| 14 | COLACO S, MODI D.Genetics of the human Y chromosome and its association with male infertility[J]. Reprod Biol Endocrinol, 2018, 16(1): 14. |
| 15 | CANNARELLA R, BERTELLI M, CONDORELLI R A,et al. Analysis of 29 targeted genes for non-obstructive azoospermia: the relationship between genetic testing and testicular histology[J]. World J Mens Health, 2023, 41(2): 422-433. |
| 16 | LUDDI A, MARGOLLICCI M, GAMBERA L, et al. Spermatogenesis in a man with complete deletion of USP9Y[J]. N Engl J Med, 2009, 360(9): 881-885. |
| 17 | CORROENNE R, MALEKZADEH-MILANI S G, BONNET D, et al. Fetal aortic valvuloplasty in critical aortic stenosis: indication, technique and postnatal outcomes[J].Gynecol Obstet Fertil Senol,2022,50(7/8): 553-558. |
/
| 〈 |
|
〉 |
AI Summary
