OBJECTIVE: Trophoblastic fetal cells harvested from maternal blood have the capacity to be used for copy number analyses in a cell-based non-invasive prenatal test (cbNIPT). Potentially, this will result in increased resolution for detection of subchromosomal aberrations due to high quality DNA not intermixed with maternal DNA. We present 5 selected clinical cases from first trimester pregnancies where cbNIPT was used to demonstrate a wide range of clinically relevant aberrations. METHOD: Blood samples were collected from high risk pregnancies in gestational week 12 + 1 to 12 + 5. Fetal trophoblast cells were enriched and stained using fetal cell specific antibodies. The enriched cell fraction was scanned, and fetal cells were picked using a capillary-based cell picking instrument. Subsequently, whole genome amplification (WGA) was performed on fetal cells, and the DNA was analyzed blindly by array comparative genomic hybridization (aCGH). RESULTS: We present 5 cases where non-invasive cell-based prenatal test results are compared with aCGH results on chorionic villus samples (CVS), demonstrating aneuploidies including mosaicism, unbalanced translocations, subchromosomal deletions, or duplications. CONCLUSION: Aneuploidy and subchromosomal aberrations can be detected using fetal cells harvested from maternal blood. The method has the future potential of being offered as a cell-based NIPT with large high genomic resolution.
OBJECTIVE: Trophoblastic fetal cells harvested from maternal blood have the capacity to be used for copy number analyses in a cell-based non-invasive prenatal test (cbNIPT). Potentially, this will result in increased resolution for detection of subchromosomal aberrations due to high quality DNA not intermixed with maternal DNA. We present 5 selected clinical cases from first trimester pregnancies where cbNIPT was used to demonstrate a wide range of clinically relevant aberrations. METHOD: Blood samples were collected from high risk pregnancies in gestational week 12 + 1 to 12 + 5. Fetal trophoblast cells were enriched and stained using fetal cell specific antibodies. The enriched cell fraction was scanned, and fetal cells were picked using a capillary-based cell picking instrument. Subsequently, whole genome amplification (WGA) was performed on fetal cells, and the DNA was analyzed blindly by array comparative genomic hybridization (aCGH). RESULTS: We present 5 cases where non-invasive cell-based prenatal test results are compared with aCGH results on chorionic villus samples (CVS), demonstrating aneuploidies including mosaicism, unbalanced translocations, subchromosomal deletions, or duplications. CONCLUSION:Aneuploidy and subchromosomal aberrations can be detected using fetal cells harvested from maternal blood. The method has the future potential of being offered as a cell-based NIPT with large high genomic resolution.
Authors: Anne van de Looij; Ripudaman Singh; Lotte Hatt; Katarina Ravn; Line D Jeppesen; Bolette H Nicolaisen; Mathias Kølvraa; Ida Vogel; Palle Schelde; Niels Uldbjerg Journal: Acta Obstet Gynecol Scand Date: 2020-05-17 Impact factor: 3.636
Authors: Diane Van Opstal; Stefanie van Veen; Marieke Joosten; Karin E M Diderich; Lutgarde C P Govaerts; Joke Polak; Nicole van Koetsveld; Marjan Boter; Attie T J I Go; Dimitri N M Papatsonis; Krista Prinsen; Lies H Hoefsloot; Malgorzata I Srebniak Journal: Prenat Diagn Date: 2019-08-13 Impact factor: 3.050