PO.CL01.09 · 临床研究
Detection of cfDNA shedding from advanced precancerous lesions
作者与单位
摘要 Abstract
Minimally invasive, blood-based tests for the detection of colorectal cancer (CRC) and advanced precancerous lesions (APLs) have emerged as a screening tool to aid in the early detection of cancer. While cell-free (cf)DNA detection of CRC has demonstrated high sensitivity and specificity, APL detection has been less successful. In an effort to understand these limitations, we evaluated the prevalence of APL cfDNA biomarkers from plasma samples. Formalin-fixed, paraffin-embedded (FFPE) or fresh frozen (FF) APL tissue and matched normal blood samples from 61 (FFPE n=27, FF n=34) individuals were obtained through biobanks. Whole-genome sequencing (WGS) data was used to design custom, research-use only, personalized, mPCR-NGS-based circulating tumor (ct)DNA assays. Matched plasma samples collected at the same time as tissue and whole blood collection were evaluated for the presence of circulating APL biomarkers in plasma. Sensitivity was calculated in FFPE and FF for the overall cohorts, by APL subtype, and lesion size. Because the subtype distribution differed from expected prevalence in screening trials (pmids 38477985, 40455622), a distribution was constructed to be representative of the final pivotal study so that a reflective sensitivity estimate could be calculated. Overall at a 90% specificity, APL plasma sensitivity adjusted for subtype incidence was 25% and 37% in matched FFPE and FF tissue samples, respectively. The lower plasma detection rate in FFPE samples could be due to the compromised tissue gDNA integrity and personalized mPCR assay design-ability with FFPE tissue preservation methodology. Median plasma sample variant allele frequencies (VAF) of detected samples was 3.6x10-5 and 1.4x10-5 for FFPE and FF, respectively. APL plasma sensitivity for was calculated for each APL subtype, including high-grade dysplasia (FFPE: 40%, N=10; FF: 38%, N=10), villous growth >25% (FFPE: 25%, N=8; FF: 38%, N=13), tubular adenomas >10 mm (FFPE: 25%, N=4; FF: 33%, N=3), and serrated lesions >10 mm (FFPE: 20%, N=5; FF: 50%, N=8). In general, sensitivity increased as lesion size increased (FFPE: 4-10 mm 20%, 11-20 mm 30%, 21-30 mm 50%, ≥31 mm 50%; FF: 4-10 mm 22%, 11-20 mm 47%, 21-30 mm 67%, ≥31 mm: 33%). In this study, we established a baseline of APL ctDNA shedding using a tissue-informed ctDNA assay that can be used for optimizing assays designed to detect APLs at expected levels in cell-free DNA.
利益披露 Disclosure
F. Lu,
Natera, Inc. Employment, Stock, Stock Option.
L. Cerna,
Natera, Inc. Employment, Stock, Stock Option.
S. Alexander,
Natera, Inc. Employment, Stock, Stock Option.
N. Tbeileh,
Natera, Inc. Employment, Stock, Stock Option.
E. Atolia,
Natera, Inc. Employment, Stock, Stock Option.
D. Hafez,
Natera, Inc. Employment, Stock, Stock Option.
E. Kirkizlar,
Natera, Inc. Employment, Stock, Stock Option.
M. Rabinowitz,
Natera, Inc. Employment, g., Board of Directors, non-salaried role), Stock, Stock Option, ), Travel, Patent, Consulting/Advisory Role.
MyOme Employment, g., Board of Directors, non-salaried role), Stock, Stock Option, ), Travel, Patent, Consulting/Advisory Role.
Marble Therapeutics Employment, g., Board of Directors, non-salaried role), Stock, Stock Option, Consulting/Advisory Role.
A. Aleshin,
Natera, Inc. Employment, g., Board of Directors, non-salaried role), Stock, Stock Option.
T. Kawli,
Natera, Inc. Employment, Stock, Stock Option.