AI Article Synopsis
- Promoter mutations are found in over 75% of bladder tumors and can be detected in urine, but earlier methods struggled with low-frequency mutations.
- This study employed ddPCR to analyze urinary cfDNA from 104 bladder cancer patients, focusing on the presence and frequency of mutations.
- Results showed a high concordance rate (92%) between tumor DNA and urinary cfDNA mutation status, highlighting the potential of ddPCR for monitoring certain mutations, though sensitivity in low-grade tumors remains a challenge.
Article Abstract
Background: promotor mutations are present in >75% of bladder tumours; these mutations are also detectable in urine. Previous studies have used urinary pellet DNA, and semi-quantitative methods unsuitable for detecting very low mutant allele frequencies.
Objective: In this proof-of-principle study we use ddPCR to count the DNA molecules with wt and mutant sequences in urinary cfDNA from patients whose bladder cancers harbour mutations.
Methods: Urinary cfDNA prepared from the urine from 104 bladder cancer patients was analysed. We determined the mutant allele frequency across stages and grades of disease, analysed concordance between cfDNA and tumour DNA, compared cfDNA with pellet DNA, and analysed the quantity and size distribution of cfDNA.
Results: In 71 of 77 patients with a 228 G>A/T mutant tumour, the mutation was also detected in urinary cfDNA by ddPCR; all 6 "false negatives" were low grade pTa tumours. Overall concordance between tissue and cfDNA mutation status was 92%, and 100% was achieved for high grade disease. Median mutant allele frequencies in urinary cfDNA were 3.4, 13.4 and 32.1% in grade 1, 2 and 3 disease. The 228 G>A/T mutation was not detected in urinary cfDNA in 26 out of 27 mutation-negative patients (96% specificity).
Conclusions: Concordance between tumour DNA and urinary cfDNA is high, and 228 G>A/T ddPCR may prove useful for monitoring patients that harbour this mutation. Mutant allele frequencies in cfDNA are often high, but assays capable of detecting very low mutant allele frequencies will be required to achieve high sensitivity in low grade disease.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5798520 | PMC |
| http://dx.doi.org/10.3233/BLC-170152 | DOI Listing |
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