Genes (Nov 2022)

Cytogenetic Analysis of Sporadic First-Trimester Miscarriage Specimens Using Karyotyping and QF-PCR: A Retrospective Romanian Cohort Study

  • Gabriela Popescu-Hobeanu,
  • Anca-Lelia Riza,
  • Ioana Streață,
  • Ștefania Tudorache,
  • Alexandru Comănescu,
  • Florentina Tănase,
  • Roxana Cristina Drăgușin,
  • Cornelia Pascu,
  • Anda Lorena Dijmărescu,
  • Monica-Laura Cara,
  • Ștefania Dorobanțu,
  • Bianca Petre-Mandache,
  • Mihai Cucu,
  • Simona Serban Sosoi,
  • Mihai Ioana,
  • Dominic Iliescu,
  • Florin Burada

DOI
https://doi.org/10.3390/genes13122246
Journal volume & issue
Vol. 13, no. 12
p. 2246

Abstract

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It is well known that first-trimester miscarriages are associated with chromosome abnormalities, with numerical chromosome abnormalities being the ones most commonly detected. Conventional karyotyping is still considered the gold standard in the analysis of products of conception, despite the extended use of molecular genetic techniques. However, conventional karyotyping is a laborious and time-consuming method, with a limited resolution of 5–10 Mb and hampered by maternal cell contamination and culture failure. The aim of our study was to assess the type and frequency of chromosomal abnormalities detected by conventional karyotyping in specimens of sporadic first-trimester miscarriages in a Romanian cohort, using QF-PCR to exclude maternal cell contamination. Long-term cultures were established and standard protocols were applied for cell harvesting, slide preparation, and GTG banding. All samples with 46,XX karyotype were tested for maternal cell contamination by QF-PCR, comparing multiple microsatellite markers in maternal blood with cell culture and tissue samples. Out of the initial 311 specimens collected from patients with sporadic first-trimester miscarriages, a total of 230 samples were successfully analyzed after the exclusion of 81 specimens based on unsuitable sampling, culture failure, or QF-PCR-proven maternal cell contamination. Chromosome abnormalities were detected in 135 cases (58.7%), with the most common type being single autosomal trisomy (71/135—52.6%), followed by monosomy (monosomy X being the only one detected, 24/135—17.8%), and polyploidy (23/135—17.0%). The subgroup analysis based on maternal age showed a statistically significant higher rate of single trisomy for women aged 35 years or older (40.3%) compared to the young maternal age group (26.1%) (p = 0.029). In conclusion, the combination of conventional karyotyping and QF-PCR can lead to an increased chromosome abnormality detection rate in first-trimester miscarriages. Our study provides reliable information for the genetic counseling of patients with first-trimester miscarriages, and further large-scale studies using different genetic techniques are required.

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