Tissue-based genomic profiling of 300,000 tumors highlights the detection of variants with low allele fraction

Saumya D. Sisoudiya; Hanna Tukachinsky; Rachel B. Keller-Evans; Alexa B. Schrock; Richard S.P. Huang; Ole Gjoerup; Michael J. Pishvaian; Rachna Shroff; Ethan S. Sokol; Lucas Dennis; Garrett M. Frampton; Smruthy Sivakumar

doi:10.1038/s41698-025-00991-w

Tissue-based genomic profiling of 300,000 tumors highlights the detection of variants with low allele fraction

Saumya D. Sisoudiya, Hanna Tukachinsky, Rachel B. Keller-Evans, Alexa B. Schrock, Richard S.P. Huang, Ole Gjoerup, Michael J. Pishvaian, Rachna Shroff, Ethan S. Sokol, Lucas Dennis, Garrett M. Frampton, Smruthy Sivakumar

Medicine

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

Abstract

Tumor tissues obtained in the clinical setting typically have low purity and display treatment-associated genetic heterogeneity, contributing to variants at low variant allele fractions (VAF). We present a pan-cancer landscape and the therapeutic impact of somatic variants detected at low VAF (≤10%) from tumor tissues in 331,503 patients, across 78 tumor types, that received an FDA-approved comprehensive genomic profiling (CGP) test targeting ~324 genes during routine clinical care. 29% of patients had at least one variant detected at VAF ≤10% and 16% at VAF ≤5%. Among the frequently diagnosed tumors, several cases showed low VAF variants: pancreatic (37%), non-small cell lung cancer (35%), colorectal (29%) and prostate (24%). Treatment resistance-associated alterations had lower median VAF than driver alterations, although variants with VAF ≤5% comprised both driver and resistance alterations. This highlights the importance of CGP in detecting low VAF variants, to better inform clinical actionability and guide personalized treatment for patients with cancer.

Original language	English (US)
Article number	190
Journal	npj Precision Oncology
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41698-025-00991-w
State	Published - Dec 2025

ASJC Scopus subject areas

Oncology
Cancer Research

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Sisoudiya, S. D., Tukachinsky, H., Keller-Evans, R. B., Schrock, A. B., Huang, R. S. P., Gjoerup, O., Pishvaian, M. J., Shroff, R., Sokol, E. S., Dennis, L., Frampton, G. M., & Sivakumar, S. (2025). Tissue-based genomic profiling of 300,000 tumors highlights the detection of variants with low allele fraction. npj Precision Oncology, 9(1), Article 190. https://doi.org/10.1038/s41698-025-00991-w

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title = "Tissue-based genomic profiling of 300,000 tumors highlights the detection of variants with low allele fraction",

abstract = "Tumor tissues obtained in the clinical setting typically have low purity and display treatment-associated genetic heterogeneity, contributing to variants at low variant allele fractions (VAF). We present a pan-cancer landscape and the therapeutic impact of somatic variants detected at low VAF (≤10%) from tumor tissues in 331,503 patients, across 78 tumor types, that received an FDA-approved comprehensive genomic profiling (CGP) test targeting ~324 genes during routine clinical care. 29% of patients had at least one variant detected at VAF ≤10% and 16% at VAF ≤5%. Among the frequently diagnosed tumors, several cases showed low VAF variants: pancreatic (37%), non-small cell lung cancer (35%), colorectal (29%) and prostate (24%). Treatment resistance-associated alterations had lower median VAF than driver alterations, although variants with VAF ≤5% comprised both driver and resistance alterations. This highlights the importance of CGP in detecting low VAF variants, to better inform clinical actionability and guide personalized treatment for patients with cancer.",

author = "Sisoudiya, {Saumya D.} and Hanna Tukachinsky and Keller-Evans, {Rachel B.} and Schrock, {Alexa B.} and Huang, {Richard S.P.} and Ole Gjoerup and Pishvaian, {Michael J.} and Rachna Shroff and Sokol, {Ethan S.} and Lucas Dennis and Frampton, {Garrett M.} and Smruthy Sivakumar",

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doi = "10.1038/s41698-025-00991-w",

language = "English (US)",

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AU - Schrock, Alexa B.

AU - Huang, Richard S.P.

AU - Gjoerup, Ole

AU - Pishvaian, Michael J.

AU - Shroff, Rachna

AU - Sokol, Ethan S.

AU - Dennis, Lucas

AU - Frampton, Garrett M.

AU - Sivakumar, Smruthy

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N2 - Tumor tissues obtained in the clinical setting typically have low purity and display treatment-associated genetic heterogeneity, contributing to variants at low variant allele fractions (VAF). We present a pan-cancer landscape and the therapeutic impact of somatic variants detected at low VAF (≤10%) from tumor tissues in 331,503 patients, across 78 tumor types, that received an FDA-approved comprehensive genomic profiling (CGP) test targeting ~324 genes during routine clinical care. 29% of patients had at least one variant detected at VAF ≤10% and 16% at VAF ≤5%. Among the frequently diagnosed tumors, several cases showed low VAF variants: pancreatic (37%), non-small cell lung cancer (35%), colorectal (29%) and prostate (24%). Treatment resistance-associated alterations had lower median VAF than driver alterations, although variants with VAF ≤5% comprised both driver and resistance alterations. This highlights the importance of CGP in detecting low VAF variants, to better inform clinical actionability and guide personalized treatment for patients with cancer.

AB - Tumor tissues obtained in the clinical setting typically have low purity and display treatment-associated genetic heterogeneity, contributing to variants at low variant allele fractions (VAF). We present a pan-cancer landscape and the therapeutic impact of somatic variants detected at low VAF (≤10%) from tumor tissues in 331,503 patients, across 78 tumor types, that received an FDA-approved comprehensive genomic profiling (CGP) test targeting ~324 genes during routine clinical care. 29% of patients had at least one variant detected at VAF ≤10% and 16% at VAF ≤5%. Among the frequently diagnosed tumors, several cases showed low VAF variants: pancreatic (37%), non-small cell lung cancer (35%), colorectal (29%) and prostate (24%). Treatment resistance-associated alterations had lower median VAF than driver alterations, although variants with VAF ≤5% comprised both driver and resistance alterations. This highlights the importance of CGP in detecting low VAF variants, to better inform clinical actionability and guide personalized treatment for patients with cancer.

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Tissue-based genomic profiling of 300,000 tumors highlights the detection of variants with low allele fraction

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