Personalized Detection of Circulating Tumor DNA Antedates Breast Cancer Metastatic Recurrence

Raoul Charles Coombes; Karen Page; Raheleh Salari; Robert Hastings; Anne Armstrong; Samreen Ahmed; Simak Ali; Susan Cleator; Laura Kenny; Justin Stebbing; Mark J. Rutherford; Himanshu Sethi; Anna Boydell; Ryan Swenerton; Daniel Fernández-García; Kelly Gleason; Katie Goddard; David S. Guttery; Zoe J. Assaf; Hsin-Ta Wu; Prashanthi Natarajan; David A. Moore; Lindsay Primrose; Scott Dashner; Antony Tin; Mustafa Balcioglu; Ramya Srinivasan; Svetlana Shchegrova; Alexander Olson; Dina Hafez; Paul R. Billings; Alexey Aleshin; Farah Rehman; Bradley Toghill; Allison Hills; Maggie C. Louie; Cheng-Ho Jimmy Lin; Bernhard Zimmermann; Jacqui Shaw

doi:10.1158/1078-0432.ccr-18-3663

Personalized Detection of Circulating Tumor DNA Antedates Breast Cancer Metastatic Recurrence

Raoul Charles Coombes(The London College), Karen Page(University of Leicester), Raheleh Salari(Natera (United States)), Robert Hastings(University of Leicester), Anne Armstrong(The Christie NHS Foundation Trust), Samreen Ahmed(Leicester Royal Infirmary), Simak Ali(The London College), Susan Cleator(The London College), Laura Kenny(The London College), Justin Stebbing(The London College), Mark J. Rutherford(University of Leicester), Himanshu Sethi(Natera (United States)), Anna Boydell(The London College), Ryan Swenerton(Natera (United States)), Daniel Fernández-García(University of Leicester), Kelly Gleason(The London College), Katie Goddard(The London College), David S. Guttery(University of Leicester), Zoe J. Assaf(Natera (United States)), Hsin-Ta Wu(Natera (United States)), Prashanthi Natarajan(Natera (United States)), David A. Moore(The London College), Lindsay Primrose(University of Leicester), Scott Dashner(Natera (United States)), Antony Tin(Natera (United States)), Mustafa Balcioglu(Natera (United States)), Ramya Srinivasan(Natera (United States)), Svetlana Shchegrova(Natera (United States)), Alexander Olson(Natera (United States)), Dina Hafez(Natera (United States)), Paul R. Billings(Natera (United States)), Alexey Aleshin(Natera (United States)), Farah Rehman(The London College), Bradley Toghill(University of Leicester), Allison Hills(The London College), Maggie C. Louie(Natera (United States)), Cheng-Ho Jimmy Lin(Natera (United States)), Bernhard Zimmermann(Natera (United States)), Jacqui Shaw(University of Leicester)

Clinical Cancer Research

April 16, 2019

10.1158/1078-0432.ccr-18-3663

Cited by 505Open Access

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Abstract

PURPOSE: Up to 30% of patients with breast cancer relapse after primary treatment. There are no sensitive and reliable tests to monitor these patients and detect distant metastases before overt recurrence. Here, we demonstrate the use of personalized circulating tumor DNA (ctDNA) profiling for detection of recurrence in breast cancer. EXPERIMENTAL DESIGN: = 208) were collected every 6 months for up to 4 years. Personalized assays targeting 16 variants selected from primary tumor whole-exome data were tested in serial plasma for the presence of ctDNA by ultradeep sequencing (average >100,000X). RESULTS: Plasma ctDNA was detected ahead of clinical or radiologic relapse in 16 of the 18 relapsed patients (sensitivity of 89%); metastatic relapse was predicted with a lead time of up to 2 years (median, 8.9 months; range, 0.5-24.0 months). None of the 31 nonrelapsing patients were ctDNA-positive at any time point across 156 plasma samples (specificity of 100%). Of the two relapsed patients who were not detected in the study, the first had only a local recurrence, whereas the second patient had bone recurrence and had completed chemotherapy just 13 days prior to blood sampling. CONCLUSIONS: This study demonstrates that patient-specific ctDNA analysis can be a sensitive and specific approach for disease surveillance for patients with breast cancer. More importantly, earlier detection of up to 2 years provides a possible window for therapeutic intervention.

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