Next-generation MRD assays: do we have the tools to evaluate them properly?

Dan Stetson, Paul Labrousse, Hugh Russell, David Shera, Chris Abbosh, Brian Dougherty, J. Carl Barrett, Darren Hodgson, James Hadfield
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Abstract

Circulating tumour DNA (ctDNA) detection of molecular residual disease (MRD) in solid tumours correlates strongly with patient outcomes and is being adopted as a new clinical standard. ctDNA levels are known to correlate with tumor volume, and although the absolute levels vary across indication and histology, its analysis is driving the adoption of MRD. MRD assays must detect tumor when imaging cannot and, as such, require very high sensitivity to detect the low levels of ctDNA found after curative intent therapy. The minimum threshold is 0.01% Tumour Fraction but current methods like Archer and Signatera are limited by detection sensitivity resulting in some patients receiving a false negative call thereby missing out on earlier therapeutic intervention. Multiple vendors are increasing the number of somatic variants tracked in tumour-informed and personalized NGS assays, from tens to thousands of variants. Most recently, assays using other biological features of ctDNA, e.g methylation or fragmentome, have been developed at the LOD required for clinical utility. These uniformed, or tumour-naive and non-personalised assays may be more easily, and therefore more rapidly, adopted in the clinic. However, this rapid development in MRD assay technology results in significant challenges in benchmarking these new technologies for use in clinical trials. This is further complicated by the fact that previous reference materials have focused on somatic variants, and do not retain all of the epigenomic features assessed by newer technologies. In this Comments and Controversy paper, we detail what is known and what remains to be determined for optimal reference materials of MRD methods and provide opinions generated during three-years of MRD technology benchmarking in AstraZeneca Translational Medicine to help guide the community conversation.
下一代MRD分析:我们有合适的工具来评估它们吗?
循环肿瘤DNA (ctDNA)检测在实体肿瘤中的分子残留病(MRD)与患者预后密切相关,正被作为一种新的临床标准采用。已知ctDNA水平与肿瘤体积相关,尽管绝对水平因适应症和组织学而异,但其分析正在推动MRD的采用。MRD检测必须在成像不能检测肿瘤的情况下检测到肿瘤,因此需要非常高的灵敏度来检测治疗目的治疗后发现的低水平ctDNA。最低阈值为0.01%肿瘤分数,但目前的方法,如Archer和Signatera,由于检测灵敏度的限制,导致一些患者接受假阴性,从而错过了早期的治疗干预。多家供应商正在增加在肿瘤信息和个性化NGS检测中跟踪的体细胞变异的数量,从数十个增加到数千个。最近,利用ctDNA的其他生物学特征(如甲基化或片段组)的检测已经在临床应用所需的LOD上得到了发展。这些统一的,或肿瘤初始和非个体化的检测方法可能更容易,因此更迅速地被临床采用。然而,MRD检测技术的快速发展给这些新技术在临床试验中的应用带来了巨大的挑战。由于以前的参考材料集中在体细胞变异上,并没有保留新技术评估的所有表观基因组特征,这使得情况更加复杂。在这篇评论和争议的论文中,我们详细介绍了MRD方法的已知和有待确定的最佳参考材料,并提供了在阿斯利康转化医学的三年MRD技术基准测试中产生的意见,以帮助指导社区对话。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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