Using All Our Genomes: Blood-based Liquid Biopsies for the Early Detection of Cancer.

View (Beijing, China) Pub Date : 2022-01-01 Epub Date: 2022-01-31 DOI:10.1002/VIW.20200118
Eddie Adams, Gregory D Sepich-Poore, Sandrine Miller-Montgomery, Rob Knight
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引用次数: 5

Abstract

The pursuit of highly sensitive and specific cancer diagnostics based on cell-free (cf) nucleic acids isolated from minimally invasive liquid biopsies has been an area of intense research and commercial effort for at least two decades. Most of these tests detect cancer-specific mutations or epigenetic modifications on circulating DNA derived from tumor cells (ctDNA). Although recent FDA approvals of both single and multi-analyte liquid biopsy companion diagnostic assays are proof of the tremendous progress made in this domain, using ctDNA for the diagnosis of early-stage (stage I/II) cancers remains challenging due to several factors, such as low mutational allele frequency in circulation, overlapping profiles in genomic alterations among diverse cancers, and clonal hematopoiesis. This review discusses these analytical challenges, interim solutions, and the opportunity to complement ctDNA diagnostics with microbiome-aware analyses that may mitigate several existing ctDNA assay limitations.

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利用我们所有的基因组:基于血液的液体活检用于癌症的早期检测。
至少二十年来,追求基于从微创液体活检中分离的无细胞(cf)核酸的高度敏感和特异性的癌症诊断一直是一个密集研究和商业努力的领域。这些测试中的大多数检测来自肿瘤细胞(ctDNA)的循环DNA上的癌症特异性突变或表观遗传学修饰。尽管最近美国食品药品监督管理局批准了单分析物和多分析物液体活检辅助诊断分析,证明了该领域取得的巨大进展,但由于几个因素,使用ctDNA诊断早期(I/II期)癌症仍然具有挑战性,如循环中的低突变等位基因频率、,以及克隆性造血。这篇综述讨论了这些分析挑战、临时解决方案,以及用微生物组意识分析来补充ctDNA诊断的机会,这些分析可能会减轻现有的ctDNA检测限制。
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