Abstract
To study the detection limits of chromosomal microaberrations in non-invasive prenatal testing with aim for five target microdeletion syndromes, including DiGeorge, Prader-Willi/Angelman, 1p36, Cri-Du-Chat, and Wolf-Hirschhorn syndromes. We used known cases of pathogenic deletions from ISCA database to specifically define regions critical for the target syndromes. Our approach to detect microdeletions, from whole genome sequencing data, is based on sample normalization and read counting for individual bins. We performed both an in-silico study using artificially created data sets and a laboratory test on mixed DNA samples, with known microdeletions, to assess the sensitivity of prediction for varying fetal fractions, deletion lengths, and sequencing read counts. The in-silico study showed sensitivity of 79.3% for 10% fetal fraction with 20M read count, which further increased to 98.4% if we searched only for deletions longer than 3Mb. The test on laboratory-prepared mixed samples was in agreement with in-silico results, while we were able to correctly detect 24 out of 29 control samples. Our results suggest that it is possible to incorporate microaberration detection into basic NIPT as part of the offered screening/diagnostics procedure, however, accuracy and reliability depends on several specific factors.
Highlights
In recent years, prenatal care has been attempting to determine the genetic background of a fetus with a decreasing risk of miscarriage
We identified syndrome specific critical regions ranging from 0.9 Mb to 21 Mb in pooled data from the public database of the International Standards for Cytogenomic Arrays (ISCA) Consortium
Our approach achieved accuracy of 79.3% for 10% fetal fraction with 20 million (20M) read count, which further increased to 98.4% if we searched only for deletions longer than 3Mb
Summary
Prenatal care has been attempting to determine the genetic background of a fetus with a decreasing risk of miscarriage. It has led to the emergence of a new basic and applied research field of non-invasive prenatal testing (NIPT) [2]. NIPT by low coverage genomic sequencing: Detection limits of chromosomal microdeletions include anonymized mapped data without genomic information to ensure participant confidentiality. The repository contains all needed data and scripts for reproduction of results of the article. The scripts and the data are for non-commercial use only, since they are part of a commercially used tests Trisomy Test + and Trisomy Test Complete (https://trisomytest.sk/en/) and are intellectual properties of Geneton Ltd
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