ctDNA monitoring using tumor-informed copy number analysis

Ze Zhou; Ros Cutts; Sarah Hrebien; Christina X. Zhang; Isaac Garcia‑Murillas; Woody Z. Zhang; Alexander M. Frankell; Wendy N. Cooper; Amit Roshan; Nicholas C. Turner; Tommy Kaplan; Nitzan Rosenfeld; Hui Zhao

doi:10.1038/s44321-026-00399-4

ctDNA monitoring using tumor-informed copy number analysis

Ze Zhou
, Ros Cutts
, Sarah Hrebien
, Christina X. Zhang
, Isaac Garcia‑Murillas
, Woody Z. Zhang
, Alexander M. Frankell
, Wendy N. Cooper
, Amit Roshan
, Nicholas C. Turner
, Tommy Kaplan
, Nitzan Rosenfeld^*
, Hui Zhao^*

^*Corresponding author for this work

The Rachel and Selim Benin School of Engineering and Computer Science

Research output: Contribution to journal › Article › peer-review

Abstract

Methods to detect circulating tumor DNA (ctDNA) enable minimally invasive responsive monitoring of cancer dynamics. However, sensitive and cost-effective methods are still lacking. Current methods for detecting cancer signals in shallow whole-genome sequencing (sWGS) data from cell-free DNA (cfDNA) via copy number aberration (CNA) analysis typically have a limit of detection of approximately 3% tumor fraction (TF). We developed informCNA, a bioinformatics method that leverages CNA information from sWGS of tumor or pre-treatment plasma samples with high TF as references, enabling ctDNA detection down to 0.2% TF across multiple cancer types. In 177 serial plasma samples from 18 patients with ovarian cancer, informCNA showed high concordance with the standard serum protein marker CA-125 and identified recurrence a median of 3.7 months earlier than CA-125 test. These results demonstrate the potential of personalized CNA analysis through sWGS for estimating ctDNA burden, enabling precise and cost-effective disease monitoring and early detection of relapse.

Original language	English
Pages (from-to)	1429-1455
Number of pages	27
Journal	EMBO Molecular Medicine
Volume	18
Issue number	4
DOIs	https://doi.org/10.1038/s44321-026-00399-4
State	Published - 15 Apr 2026

Bibliographical note

Publisher Copyright:
© The Author(s) 2026.

Keywords

Copy Number Aberration (CNA)
Liquid Biopsy
Tumor-informed
cfDNA
ctDNA

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10.1038/s44321-026-00399-4

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title = "ctDNA monitoring using tumor-informed copy number analysis",

abstract = "Methods to detect circulating tumor DNA (ctDNA) enable minimally invasive responsive monitoring of cancer dynamics. However, sensitive and cost-effective methods are still lacking. Current methods for detecting cancer signals in shallow whole-genome sequencing (sWGS) data from cell-free DNA (cfDNA) via copy number aberration (CNA) analysis typically have a limit of detection of approximately 3\% tumor fraction (TF). We developed informCNA, a bioinformatics method that leverages CNA information from sWGS of tumor or pre-treatment plasma samples with high TF as references, enabling ctDNA detection down to 0.2\% TF across multiple cancer types. In 177 serial plasma samples from 18 patients with ovarian cancer, informCNA showed high concordance with the standard serum protein marker CA-125 and identified recurrence a median of 3.7 months earlier than CA-125 test. These results demonstrate the potential of personalized CNA analysis through sWGS for estimating ctDNA burden, enabling precise and cost-effective disease monitoring and early detection of relapse.",

keywords = "Copy Number Aberration (CNA), Liquid Biopsy, Tumor-informed, cfDNA, ctDNA",

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year = "2026",

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doi = "10.1038/s44321-026-00399-4",

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AU - Hrebien, Sarah

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AU - Garcia‑Murillas, Isaac

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AU - Frankell, Alexander M.

AU - Cooper, Wendy N.

AU - Roshan, Amit

AU - Turner, Nicholas C.

AU - Kaplan, Tommy

AU - Rosenfeld, Nitzan

AU - Zhao, Hui

PY - 2026/4/15

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N2 - Methods to detect circulating tumor DNA (ctDNA) enable minimally invasive responsive monitoring of cancer dynamics. However, sensitive and cost-effective methods are still lacking. Current methods for detecting cancer signals in shallow whole-genome sequencing (sWGS) data from cell-free DNA (cfDNA) via copy number aberration (CNA) analysis typically have a limit of detection of approximately 3% tumor fraction (TF). We developed informCNA, a bioinformatics method that leverages CNA information from sWGS of tumor or pre-treatment plasma samples with high TF as references, enabling ctDNA detection down to 0.2% TF across multiple cancer types. In 177 serial plasma samples from 18 patients with ovarian cancer, informCNA showed high concordance with the standard serum protein marker CA-125 and identified recurrence a median of 3.7 months earlier than CA-125 test. These results demonstrate the potential of personalized CNA analysis through sWGS for estimating ctDNA burden, enabling precise and cost-effective disease monitoring and early detection of relapse.

AB - Methods to detect circulating tumor DNA (ctDNA) enable minimally invasive responsive monitoring of cancer dynamics. However, sensitive and cost-effective methods are still lacking. Current methods for detecting cancer signals in shallow whole-genome sequencing (sWGS) data from cell-free DNA (cfDNA) via copy number aberration (CNA) analysis typically have a limit of detection of approximately 3% tumor fraction (TF). We developed informCNA, a bioinformatics method that leverages CNA information from sWGS of tumor or pre-treatment plasma samples with high TF as references, enabling ctDNA detection down to 0.2% TF across multiple cancer types. In 177 serial plasma samples from 18 patients with ovarian cancer, informCNA showed high concordance with the standard serum protein marker CA-125 and identified recurrence a median of 3.7 months earlier than CA-125 test. These results demonstrate the potential of personalized CNA analysis through sWGS for estimating ctDNA burden, enabling precise and cost-effective disease monitoring and early detection of relapse.

KW - Copy Number Aberration (CNA)

KW - Liquid Biopsy

KW - Tumor-informed

KW - cfDNA

KW - ctDNA

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ctDNA monitoring using tumor-informed copy number analysis

Abstract

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Keywords

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