AI Article Synopsis
- There is an effort to enhance newborn screening (NBS) by using genomic sequencing, but challenges persist in interpreting DNA variants, especially those classified as variants of unknown significance (VUS).
- Population-level databases like gnomAD allow for estimates of newborns flagged as genetically at risk, particularly for rare monogenic diseases, suggesting about 100 to 600 NGS positives per lysosomal storage disease annually in a large lab.
- To better manage the number of identified high-risk newborns, the implementation of a second-tier biochemical assay using the same blood sample is proposed, potentially reducing false positives significantly.
Article Abstract
There is discussion of expanding newborn screening (NBS) through the use of genomic sequence data; yet, challenges remain in the interpretation of DNA variants. Population-level DNA variant databases are available, and it is possible to estimate the number of newborns who would be flagged as having a risk for a genetic disease (including rare variants of unknown significance, VUS) via next-generation sequencing (NGS) positive. Estimates of the number of newborns screened as NGS positive for monogenic recessive diseases were obtained by analysis of the Genome Aggregation Database (gnomAD). For a collection of diseases for which there is interest in NBS, we provided 2 estimates for the expected number of newborns screened as NGS positive. For a set of lysosomal storage diseases, we estimated that 100 to approximately 600 NGS screen positives would be found per disease per year in a large NBS laboratory (California), and this figure may be expected to rise to a limit of about 1000 if we account for the fact that gnomAD does not contain all worldwide variants. The number of positives would drop 2.5- to 10-fold if the 10 VUS with highest allele frequency were biochemically annotated as benign. It is proposed that a second-tier biochemical assay using the same dried blood spot could be carried out as a filter and as part of NBS to reduce the number of high-risk NGS positive newborns to a manageable number.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11377026 | PMC |
| http://dx.doi.org/10.1016/j.gimo.2023.100821 | DOI Listing |
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