Author
Listed:
- Dimitrios V. Vavoulis
(University of Oxford
University of Oxford)
- Anthony Cutts
(University of Oxford)
- Nishita Thota
(Littlemore)
- Jordan Brown
(Littlemore)
- Robert Sugar
(Littlemore)
- Antonio Rueda
(Littlemore)
- Arman Ardalan
(University of Oxford)
- Kieran Howard
(University of Oxford)
- Flavia Matos Santo
(University of Oxford)
- Thippesh Sannasiddappa
(Littlemore)
- Bronwen Miller
(Littlemore)
- Stephen Ash
(University of Oxford)
- Yibin Liu
(Wuhan University
Wuhan University)
- Chun-Xiao Song
(University of Oxford
University of Oxford)
- Brian D. Nicholson
(University of Oxford)
- Helene Dreau
(University of Oxford)
- Carolyn Tregidgo
(Littlemore)
- Anna Schuh
(University of Oxford)
Abstract
The analysis of circulating tumour DNA (ctDNA) through minimally invasive liquid biopsies is promising for early multi-cancer detection and monitoring minimal residual disease. Most existing methods focus on targeted deep sequencing, but few integrate multiple data modalities. Here, we develop a methodology for ctDNA detection using deep (80x) whole-genome TET-Assisted Pyridine Borane Sequencing (TAPS), a less destructive approach than bisulphite sequencing, which permits the simultaneous analysis of genomic and methylomic data. We conduct a diagnostic accuracy study across multiple cancer types in symptomatic patients, achieving 94.9% sensitivity and 88.8% specificity. Matched tumour biopsies are used for validation, not for guiding the analysis, imitating an early detection scenario. Furthermore, in silico validation demonstrates strong discrimination (86% AUC) at ctDNA fractions as low as 0.7%. Additionally, we successfully track tumour burden and ctDNA shedding from precancerous lesions post-treatment without requiring matched tumour biopsies. This pipeline is ready for further clinical evaluation to extend cancer screening and improve patient triage and monitoring.
Suggested Citation
Dimitrios V. Vavoulis & Anthony Cutts & Nishita Thota & Jordan Brown & Robert Sugar & Antonio Rueda & Arman Ardalan & Kieran Howard & Flavia Matos Santo & Thippesh Sannasiddappa & Bronwen Miller & Ste, 2025.
"Multimodal cell-free DNA whole-genome TAPS is sensitive and reveals specific cancer signals,"
Nature Communications, Nature, vol. 16(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-024-55428-y
DOI: 10.1038/s41467-024-55428-y
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