利用治疗诱导的肿瘤溶解来提高ctDNA分析的敏感性：一项首次人体试验研究。

Exploitation of treatment induced tumor lysis to enhance the sensitivity of ctDNA analysis: A first-in-human pilot study.

作者信息

Breadner Daniel A, Vincent Mark D, Correa Rohann, Black Morgan, Warner Andrew, Sanatani Michael, Bhat Vasudeva, Morris Clive, Jones Greg, Allan Alison, Palma David A, Raphael Jacques

机构信息

Division of Medical Oncology, London Regional Cancer Program, 800 Commissioners Road East, N6A5W9 London, Ontario, Canada.

出版信息

Lung Cancer. 2022 Mar;165:145-151. doi: 10.1016/j.lungcan.2022.01.013. Epub 2022 Jan 29.

DOI:10.1016/j.lungcan.2022.01.013

PMID:35124411

Abstract

INTRODUCTION

Blood-based liquid biopsies examining circulating tumour DNA (ctDNA) have increasing applications in non-small cell lung cancer (NSCLC). Limitations in sensitivity remain a barrier to ctDNA replacing tissue-based testing. We hypothesized that testing immediately after starting treatment would yield an increased abundance of ctDNA in plasma because of tumor lysis, allowing for the detection of genetic alterations that were occult in baseline testing.

METHODS

Three prospective cohorts of patients with stage III/IV NSCLC were enrolled. Cohort 1 (C1) contained patients starting platinum doublet chemoradiation (n = 10) and cohort 2 (C2) initiating platinum doublet cytotoxic chemotherapy ± immunotherapy (n = 10). Cohort 3 (C3) contained patients receiving palliative radiation. Two baseline samples were collected. In C1 and C2, subsequent samples were collected 3, 6, 24 and 48 h post initiation of chemotherapy. Patients in C3 had samples collected immediately prior to the next three radiotherapy fractions. Samples were analyzed for ctDNA using the 36-gene amplicon-based NGS Inivata InVisionFirst®-Lung assay.

RESULTS

A total of 40 patients were enrolled. Detectable ctDNA was present at baseline in 32 patients (80%), 4 additional patients (50%) had detectable ctDNA in post-treatment samples. Seven patients with detectable ctDNA at baseline (23%) had new genetic alterations detected in post-treatment samples. Mutant molecule numbers increased with treatment in 24 of 31 (77%) pts with detectable ctDNA. ctDNA levels peaked a median of 7 h (IQR:2-26 h) after the initiation of chemotherapy and a median of 2 days (IQR:1-3 days) after radiation was commenced.

CONCLUSION

ctDNA levels increase in the hours to days after starting treatment. ctDNA testing in the acute post-treatment phase can yield results that were not evident in pre-treatment testing. Application of this principle could improve ctDNA utility as an alternate to tissue-based testing and improve sensitivity for the detection of treatment-resistant clones.(NCT03986463).

摘要

引言

检测循环肿瘤DNA（ctDNA）的血液液体活检在非小细胞肺癌（NSCLC）中的应用日益广泛。灵敏度方面的局限性仍然是ctDNA取代组织检测的障碍。我们推测，由于肿瘤溶解，在开始治疗后立即进行检测会使血浆中ctDNA丰度增加，从而能够检测到基线检测中隐匿的基因改变。

方法

招募了三组III/IV期NSCLC患者的前瞻性队列。队列1（C1）包含开始接受铂类双药同步放化疗的患者（n = 10），队列2（C2）开始接受铂类双药细胞毒性化疗±免疫治疗（n = 10）。队列3（C3）包含接受姑息性放疗的患者。采集了两份基线样本。在C1和C2中，化疗开始后3、6、24和48小时采集后续样本。C3中的患者在下一次三次放疗前立即采集样本。使用基于36基因扩增子的NGS Inivata InVisionFirst®-Lung检测法分析样本中的ctDNA。

结果

共招募了40名患者。32名患者（80%）在基线时可检测到ctDNA，另外4名患者（50%）在治疗后样本中可检测到ctDNA。7名基线时可检测到ctDNA的患者（23%）在治疗后样本中检测到新的基因改变。在31名可检测到ctDNA的患者中，24名（77%）患者的突变分子数随治疗增加。化疗开始后，ctDNA水平在中位数7小时（四分位间距：2 - 26小时）达到峰值，放疗开始后中位数2天（四分位间距：1 - 3天）达到峰值。

结论

开始治疗后的数小时至数天内ctDNA水平会升高。治疗后急性期的ctDNA检测可得出治疗前检测中不明显的结果。应用这一原则可提高ctDNA作为组织检测替代方法的效用，并提高检测耐药克隆的灵敏度。（NCT03986463）

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利用治疗诱导的肿瘤溶解来提高ctDNA分析的敏感性：一项首次人体试验研究。

Exploitation of treatment induced tumor lysis to enhance the sensitivity of ctDNA analysis: A first-in-human pilot study.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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