游离 DNA 分析技术在癌症诊断中的局限性和机遇。
Limitations and opportunities of technologies for the analysis of cell-free DNA in cancer diagnostics.
机构信息
Department of Bioengineering, Rice University, Houston, TX, USA.
NuProbe USA, Houston, TX, USA.
出版信息
Nat Biomed Eng. 2022 Mar;6(3):232-245. doi: 10.1038/s41551-021-00837-3. Epub 2022 Jan 31.
Abstract
Cell-free DNA (cfDNA) in the circulating blood plasma of patients with cancer contains tumour-derived DNA sequences that can serve as biomarkers for guiding therapy, for the monitoring of drug resistance, and for the early detection of cancers. However, the analysis of cfDNA for clinical diagnostic applications remains challenging because of the low concentrations of cfDNA, and because cfDNA is fragmented into short lengths and is susceptible to chemical damage. Barcodes of unique molecular identifiers have been implemented to overcome the intrinsic errors of next-generation sequencing, which is the prevailing method for highly multiplexed cfDNA analysis. However, a number of methodological and pre-analytical factors limit the clinical sensitivity of the cfDNA-based detection of cancers from liquid biopsies. In this Review, we describe the state-of-the-art technologies for cfDNA analysis, with emphasis on multiplexing strategies, and discuss outstanding biological and technical challenges that, if addressed, would substantially improve cancer diagnostics and patient care.
摘要
循环血液血浆中的无细胞 DNA (cfDNA) 含有源自肿瘤的 DNA 序列,可作为指导治疗、监测药物耐药性和早期发现癌症的生物标志物。然而,由于 cfDNA 的浓度较低,并且 cfDNA 被碎片化成长度较短,容易受到化学损伤,因此 cfDNA 的分析在临床诊断应用中仍然具有挑战性。独特分子标识符的条形码已被实施,以克服下一代测序的固有误差,这是高度多重 cfDNA 分析的流行方法。然而,一些方法学和分析前因素限制了基于 cfDNA 的液体活检中癌症检测的临床灵敏度。在这篇综述中,我们描述了 cfDNA 分析的最新技术,重点介绍了多重策略,并讨论了如果得到解决,将极大地改善癌症诊断和患者护理的突出的生物学和技术挑战。
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