基于多位点免疫磁珠的新一代肺腺癌ctDNA和CTCs测序联合分析

IF 0.9 4区 材料科学
Jia Li, Jun Ding, F. Xu
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引用次数: 0

摘要

背景:癌症是世界范围内危害人类健康的最重要疾病。液体活检在预测治疗反应、疾病复发的早期诊断和肿瘤演变的实时动态检测方面具有较高的研究价值,每种方法都有其独特的优缺点。方法:采用新型Epcam免疫磁性脂质体珠(Ep-IML)和Vimentin免疫磁性脂质体珠(Vi-IML)联合肿瘤细胞富集策略,从30例肺腺癌(LAC)患者中捕获CTC,然后用循环肿瘤细胞DNA(ctcDNA)和ctDNA进行高通量测序,以了解患者的遗传变异。结果:改良的CTC富集效率显著提高,Ep-IML与Vi-IML联合富集CTC的平均值为11.78/7.5mL。肺腺癌CTC的基因组分析结果显示,五个最常见的突变基因为EGFR、TP53、KRAS、ALK、BRAF。肺腺癌患者ctDNA基因分析结果显示,五个最常见的突变基因是EGFR、AKT1、TP53、DDR2和FGFR3。NGS分析表明,通过与CTC和ctDNA相结合的测试,液体活检显示的遗传图谱的变化可能会增加。结论:我们开发了一个定制的CTC富集鉴定系统。CTC可能是ctDNA的理想补充,在指导临床给药和个体化治疗方面具有重要的临床应用,CTC和ctDNA联合检测可以在单个试验中为患者检测尽可能多的药物可用靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Combination Analyses Next Generation Sequencing of Lung Adenocarcinoma ctDNA and CTCs Based on Multi-Site Immunomagnetic Beads
Background: Lung cancer is the most important disease that endangers human health worldwide. High research value exists for liquid biopsy in predicting treatment response, early diagnosis of disease recurrence, and real-time dynamic detection of tumor evolution, and each one have their own unique advantages and drawbacks. Methods: We used a novel combined Epcam immunomagnetic liposome bead (Ep-IML) and Vimentin immunomagnetic liposome bead (Vi-IML) tumor cell enrichment strategy to capture CTCs from 30 lung adenocarcinoma (LAC) patients and then performed high-throughput sequencing with Circulating tumor cell DNA (ctcDNA) and ctDNA to understand the genetic variants of the patients. Results: The modified CTC enrichment efficiency was significantly improved and the mean value of CTCs enriched when Ep-IML combined with Vi-IML is 11.78/7.5 mL. The results of genomic analysis of CTC in lung adenocarcinoma showed that the five most frequently mutated genes were EGFR, TP53, KRAS, ALK, BRAF. And results of ctDNA gene analysis in lung adenocarcinoma patients showed that the five most frequently mutated genes were EGFR, AKT1, TP53, DDR2, and FGFR3. NGS analysis demonstrated that variations in the genetic profile revealed by the liquid biopsy might be increased by combining tests with CTC and ctDNA. Conclusion: We have developed a customized CTC enrichment identification system. CTCs could be an ideal complement to ctDNA and have important clinical applications in guiding clinical dosing and individualized therapy, combined CTC and ctDNA assays could detect as many drug-available targets as possible for a patient in a single trial.
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来源期刊
Science of Advanced Materials
Science of Advanced Materials NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
自引率
11.10%
发文量
98
审稿时长
4.4 months
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