Cell-free DNA fragmentomes for noninvasive detection of liver cirrhosis and other diseases

Akshaya V. Annapragada; Zachariah H. Foda; Hope Orjuela; Carter Norton; Shashikant Koul; Noushin Niknafs; Sarah Short; Keerti Boyapati; Adrianna Bartolomucci; Dimitrios Mathios; Michael Noë; Chris Cherry; Jacob Carey; Alessandro Leal; Bryan Chesnick; Nicholas C. Dracopoli; Jamie E. Medina; Nicholas A. Vulpescu; Daniel C. Bruhm; Sarah Bacus; Vilmos Adleff; Amy K. Kim; Stephen B. Baylin; Gregory D. Kirk; Andrei Sorop; Razvan Iacob; Speranta Iacob; Liana Gheorghe; Simona Dima; Manuel Ramírez-Zea; Katherine A. McGlynn; Claus L. Feltoft; Julia S. Johansen; John Groopman; Jillian Phallen; Robert B. Scharpf; Victor E. Velculescu

doi:10.1126/scitranslmed.adw2603

Cell-free DNA fragmentomes for noninvasive detection of liver cirrhosis and other diseases

Akshaya V. Annapragada, Zachariah H. Foda, Hope Orjuela, Carter Norton, Shashikant Koul, Noushin Niknafs, Sarah Short, Keerti Boyapati, Adrianna Bartolomucci, Dimitrios Mathios, Michael Noë, Chris Cherry, Jacob Carey, Alessandro Leal, Bryan Chesnick, Nicholas C. Dracopoli, Jamie E. Medina, Nicholas A. Vulpescu, Daniel C. Bruhm, Sarah BacusVilmos Adleff, Amy K. Kim, Stephen B. Baylin, Gregory D. Kirk, Andrei Sorop, Razvan Iacob, Speranta Iacob, Liana Gheorghe, Simona Dima, Manuel Ramírez-Zea, Katherine A. McGlynn, Claus L. Feltoft, Julia S. Johansen, John Groopman, Jillian Phallen^*, Robert B. Scharpf^*, Victor E. Velculescu^*

^*Corresponding author for this work

Department of Internal Medicine

1 Citation (Scopus)

Abstract

Accessible liquid biopsies, including analyses of genome-wide cell-free DNA (cfDNA) fragmentation, are emerging for early detection of cancer but remain largely unexplored in other diseases. Here, we used whole-genome sequencing to examine cfDNA fragmentomes in 1576 individuals, including those with liver disease or with other morbidities such as vascular, autoimmune, and neurodegenerative conditions. As a prototype for disease-specific cfDNA fragmentomic biomarkers, we developed a machine learning classifier that detected early liver disease, advanced fibrosis, and cirrhosis with high sensitivity in separate discovery (n = 423) and validation cohorts (n = 221) and had limited cross-reactivity for other diseases. Genome-wide fragmentome and methylome analyses revealed liver-derived and immune-mediated changes in cfDNA in the circulation of individuals affected with liver disease. Fragmentomic changes were also observed across a range of other human morbidities and reflected disease-specific changes in the circulation. A machine learning model using cfDNA fragmentomes predicted overall survival in separate morbidity discovery (n = 571) and validation cohorts (n = 231). These analyses demonstrate the connection between cfDNA fragmentomes and an individual's physiologic state and provide previously unrecognized possibilities for cfDNA liquid biopsies across human disease.

Original language	English
Article number	eadw2603
Journal	Science translational medicine
Volume	18
Issue number	839
Pages (from-to)	eadw2603
ISSN	1946-6234
DOIs	https://doi.org/10.1126/scitranslmed.adw2603
Publication status	Published - 4 Mar 2026

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10.1126/scitranslmed.adw2603

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Annapragada, A. V., Foda, Z. H., Orjuela, H., Norton, C., Koul, S., Niknafs, N., Short, S., Boyapati, K., Bartolomucci, A., Mathios, D., Noë, M., Cherry, C., Carey, J., Leal, A., Chesnick, B., Dracopoli, N. C., Medina, J. E., Vulpescu, N. A., Bruhm, D. C., ... Velculescu, V. E. (2026). Cell-free DNA fragmentomes for noninvasive detection of liver cirrhosis and other diseases. Science translational medicine, 18(839), eadw2603. Article eadw2603. https://doi.org/10.1126/scitranslmed.adw2603

Annapragada, AV, Foda, ZH, Orjuela, H, Norton, C, Koul, S, Niknafs, N, Short, S, Boyapati, K, Bartolomucci, A, Mathios, D, Noë, M, Cherry, C, Carey, J, Leal, A, Chesnick, B, Dracopoli, NC, Medina, JE, Vulpescu, NA, Bruhm, DC, Bacus, S, Adleff, V, Kim, AK, Baylin, SB, Kirk, GD, Sorop, A, Iacob, R, Iacob, S, Gheorghe, L, Dima, S, Ramírez-Zea, M, McGlynn, KA, Feltoft, CL , Johansen, JS, Groopman, J, Phallen, J, Scharpf, RB & Velculescu, VE 2026, 'Cell-free DNA fragmentomes for noninvasive detection of liver cirrhosis and other diseases', Science translational medicine, vol. 18, no. 839, eadw2603, pp. eadw2603. https://doi.org/10.1126/scitranslmed.adw2603

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title = "Cell-free DNA fragmentomes for noninvasive detection of liver cirrhosis and other diseases",

abstract = "Accessible liquid biopsies, including analyses of genome-wide cell-free DNA (cfDNA) fragmentation, are emerging for early detection of cancer but remain largely unexplored in other diseases. Here, we used whole-genome sequencing to examine cfDNA fragmentomes in 1576 individuals, including those with liver disease or with other morbidities such as vascular, autoimmune, and neurodegenerative conditions. As a prototype for disease-specific cfDNA fragmentomic biomarkers, we developed a machine learning classifier that detected early liver disease, advanced fibrosis, and cirrhosis with high sensitivity in separate discovery (n = 423) and validation cohorts (n = 221) and had limited cross-reactivity for other diseases. Genome-wide fragmentome and methylome analyses revealed liver-derived and immune-mediated changes in cfDNA in the circulation of individuals affected with liver disease. Fragmentomic changes were also observed across a range of other human morbidities and reflected disease-specific changes in the circulation. A machine learning model using cfDNA fragmentomes predicted overall survival in separate morbidity discovery (n = 571) and validation cohorts (n = 231). These analyses demonstrate the connection between cfDNA fragmentomes and an individual's physiologic state and provide previously unrecognized possibilities for cfDNA liquid biopsies across human disease.",

author = "Annapragada, \{Akshaya V.\} and Foda, \{Zachariah H.\} and Hope Orjuela and Carter Norton and Shashikant Koul and Noushin Niknafs and Sarah Short and Keerti Boyapati and Adrianna Bartolomucci and Dimitrios Mathios and Michael No{\"e} and Chris Cherry and Jacob Carey and Alessandro Leal and Bryan Chesnick and Dracopoli, \{Nicholas C.\} and Medina, \{Jamie E.\} and Vulpescu, \{Nicholas A.\} and Bruhm, \{Daniel C.\} and Sarah Bacus and Vilmos Adleff and Kim, \{Amy K.\} and Baylin, \{Stephen B.\} and Kirk, \{Gregory D.\} and Andrei Sorop and Razvan Iacob and Speranta Iacob and Liana Gheorghe and Simona Dima and Manuel Ram{\'i}rez-Zea and McGlynn, \{Katherine A.\} and Feltoft, \{Claus L.\} and Johansen, \{Julia S.\} and John Groopman and Jillian Phallen and Scharpf, \{Robert B.\} and Velculescu, \{Victor E.\}",

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doi = "10.1126/scitranslmed.adw2603",

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T1 - Cell-free DNA fragmentomes for noninvasive detection of liver cirrhosis and other diseases

AU - Annapragada, Akshaya V.

AU - Foda, Zachariah H.

AU - Orjuela, Hope

AU - Norton, Carter

AU - Koul, Shashikant

AU - Niknafs, Noushin

AU - Short, Sarah

AU - Boyapati, Keerti

AU - Bartolomucci, Adrianna

AU - Mathios, Dimitrios

AU - Noë, Michael

AU - Cherry, Chris

AU - Carey, Jacob

AU - Leal, Alessandro

AU - Chesnick, Bryan

AU - Dracopoli, Nicholas C.

AU - Medina, Jamie E.

AU - Vulpescu, Nicholas A.

AU - Bruhm, Daniel C.

AU - Bacus, Sarah

AU - Adleff, Vilmos

AU - Kim, Amy K.

AU - Baylin, Stephen B.

AU - Kirk, Gregory D.

AU - Sorop, Andrei

AU - Iacob, Razvan

AU - Iacob, Speranta

AU - Gheorghe, Liana

AU - Dima, Simona

AU - Ramírez-Zea, Manuel

AU - McGlynn, Katherine A.

AU - Feltoft, Claus L.

AU - Johansen, Julia S.

AU - Groopman, John

AU - Phallen, Jillian

AU - Scharpf, Robert B.

AU - Velculescu, Victor E.

PY - 2026/3/4

Y1 - 2026/3/4

N2 - Accessible liquid biopsies, including analyses of genome-wide cell-free DNA (cfDNA) fragmentation, are emerging for early detection of cancer but remain largely unexplored in other diseases. Here, we used whole-genome sequencing to examine cfDNA fragmentomes in 1576 individuals, including those with liver disease or with other morbidities such as vascular, autoimmune, and neurodegenerative conditions. As a prototype for disease-specific cfDNA fragmentomic biomarkers, we developed a machine learning classifier that detected early liver disease, advanced fibrosis, and cirrhosis with high sensitivity in separate discovery (n = 423) and validation cohorts (n = 221) and had limited cross-reactivity for other diseases. Genome-wide fragmentome and methylome analyses revealed liver-derived and immune-mediated changes in cfDNA in the circulation of individuals affected with liver disease. Fragmentomic changes were also observed across a range of other human morbidities and reflected disease-specific changes in the circulation. A machine learning model using cfDNA fragmentomes predicted overall survival in separate morbidity discovery (n = 571) and validation cohorts (n = 231). These analyses demonstrate the connection between cfDNA fragmentomes and an individual's physiologic state and provide previously unrecognized possibilities for cfDNA liquid biopsies across human disease.

AB - Accessible liquid biopsies, including analyses of genome-wide cell-free DNA (cfDNA) fragmentation, are emerging for early detection of cancer but remain largely unexplored in other diseases. Here, we used whole-genome sequencing to examine cfDNA fragmentomes in 1576 individuals, including those with liver disease or with other morbidities such as vascular, autoimmune, and neurodegenerative conditions. As a prototype for disease-specific cfDNA fragmentomic biomarkers, we developed a machine learning classifier that detected early liver disease, advanced fibrosis, and cirrhosis with high sensitivity in separate discovery (n = 423) and validation cohorts (n = 221) and had limited cross-reactivity for other diseases. Genome-wide fragmentome and methylome analyses revealed liver-derived and immune-mediated changes in cfDNA in the circulation of individuals affected with liver disease. Fragmentomic changes were also observed across a range of other human morbidities and reflected disease-specific changes in the circulation. A machine learning model using cfDNA fragmentomes predicted overall survival in separate morbidity discovery (n = 571) and validation cohorts (n = 231). These analyses demonstrate the connection between cfDNA fragmentomes and an individual's physiologic state and provide previously unrecognized possibilities for cfDNA liquid biopsies across human disease.

UR - https://www.scopus.com/pages/publications/105032045632

U2 - 10.1126/scitranslmed.adw2603

DO - 10.1126/scitranslmed.adw2603

M3 - Journal article

C2 - 41779869

AN - SCOPUS:105032045632

SN - 1946-6234

VL - 18

SP - eadw2603

JO - Science translational medicine

JF - Science translational medicine

IS - 839

M1 - eadw2603

ER -

Cell-free DNA fragmentomes for noninvasive detection of liver cirrhosis and other diseases

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