What technological advances were necessary to make the sequencing and analysis of circulating free DNA precise and efficient?
Balázs: I think the most important thing was that we already knew exactly what we were looking for. Thanks to basic research over the last ten to 20 years, we have already learned a lot about circulating free DNA, or cfDNA. It started with cfDNA research during pregnancy, where it was discovered that chromosomal changes in the child can be detected in the mother's blood. Today, cfDNA is routinely used in prenatal diagnostics. Through all this previous research, we have found that circulating free DNA from tumors can also be detected.
What's more, the cost of sequencing has fallen sharply since then. And my field, bioinformatics, was still in its infancy at the time. In summary, these three advances were necessary to make the current method possible.
Does the quality of the blood samples affect the reliability and accuracy of the analysis of circulating DNA fragments?
Balázs: A blood sample taken with conventional potassium measuring tubes is perfectly adequate. These samples must be processed quickly after collection, otherwise the blood cells burst and their DNA dilutes the cfDNA. However, the samples can be stored at room temperature for a week in the blood collection tubes specially designed for cfDNA. The test is therefore robust and does not affect the quality of the analysis.