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Method provides more accurate diagnosis of MDS, team says


 

Micrograph showing MDS

Next-generation sequencing (NGS) of cell-free DNA should be the method of choice to confirm the diagnosis of myelodysplastic syndromes (MDS), according to researchers.

The team found that using NGS to analyze samples from MDS patients yielded more accurate results than Sanger sequencing.

And sequencing cell-free DNA rather than peripheral blood cell DNA increased the likelihood of detecting mutations associated with MDS.

The team reported these findings in Genetic Testing and Molecular Biomarkers. This research was funded by NeoGenomics Laboratories.

For this study, the researchers performed NGS on a panel of 14 target genes using total nucleic acid extracted from the plasma of 16 patients with early MDS (blasts <5%). The team also performed Sanger sequencing and NGS on peripheral blood cell DNA from the same patients.

The researchers found that NGS of cell-free DNA confirmed the diagnosis of MDS in all 16 patients.

In addition, NGS of cell-free DNA revealed abnormalities in 5 patients (31%) that were not detected by Sanger sequencing of peripheral blood cell DNA.

NGS of peripheral blood cell DNA produced the same results as NGS of cell-free DNA for 4 of the 5 patients. However, NGS of peripheral blood cell DNA did not detect a mutation in the RUNX1 gene that was evident in cell-free DNA from 1 patient.

Overall, the researchers found that mutant allele frequency was significantly higher in cell-free DNA than cellular DNA (P=0.008).

The team therefore concluded that cell-free DNA is more reliable than peripheral blood cell DNA for detecting molecular abnormalities in patients with MDS, and NGS is more accurate than Sanger sequencing.

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