Genomics

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Direct Detection of Early-stage Cancers Using Circulating Tumor DNA


ABSTRACT: Early detection and intervention are likely to be the most effective means for reducing morbidity and mortality of human cancer. However, development of methods for noninvasive detection of early-stage tumors has remained a challenge. We have developed an approach called targeted error correction sequencing (TEC-Seq) that allows ultrasensitive direct evaluation of sequence changes in circulating cell-free DNA using massively parallel sequencing. We have used this approach to examine 58 cancer-related genes encompassing 81 kb. Analysis of plasma from 44 healthy individuals identified genomic changes related to clonal hematopoiesis in 16% of asymptomatic individuals but no alterations in driver genes related to solid cancers. Evaluation of 200 patients with colorectal, breast, lung, or ovarian cancer detected somatic mutations in the plasma of 71, 59, 59, and 68%, respectively, of patients with stage I or II disease. Analyses of mutations in the circulation revealed high concordance with alterations in the tumors of these patients. In patients with resectable colorectal cancers, higher amounts of preoperative circulating tumor DNA were associated with disease recurrence and decreased overall survival. These analyses provide a broadly applicable approach for noninvasive detection of early-stage tumors that may be useful for screening and management of patients with cancer.

PROVIDER: EGAS00001002577 | EGA |

REPOSITORIES: EGA

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Direct detection of early-stage cancers using circulating tumor DNA.

Phallen Jillian J   Sausen Mark M   Adleff Vilmos V   Leal Alessandro A   Hruban Carolyn C   White James J   Anagnostou Valsamo V   Fiksel Jacob J   Cristiano Stephen S   Papp Eniko E   Speir Savannah S   Reinert Thomas T   Orntoft Mai-Britt Worm MW   Woodward Brian D BD   Murphy Derek D   Parpart-Li Sonya S   Riley David D   Nesselbush Monica M   Sengamalay Naomi N   Georgiadis Andrew A   Li Qing Kay QK   Madsen Mogens Rørbæk MR   Mortensen Frank Viborg FV   Huiskens Joost J   Punt Cornelis C   van Grieken Nicole N   Fijneman Remond R   Meijer Gerrit G   Husain Hatim H   Scharpf Robert B RB   Diaz Luis A LA   Jones Siân S   Angiuoli Sam S   Ørntoft Torben T   Nielsen Hans Jørgen HJ   Andersen Claus Lindbjerg CL   Velculescu Victor E VE  

Science translational medicine 20170801 403


Early detection and intervention are likely to be the most effective means for reducing morbidity and mortality of human cancer. However, development of methods for noninvasive detection of early-stage tumors has remained a challenge. We have developed an approach called targeted error correction sequencing (TEC-Seq) that allows ultrasensitive direct evaluation of sequence changes in circulating cell-free DNA using massively parallel sequencing. We have used this approach to examine 58 cancer-re  ...[more]

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