E.2 液体活检的概念验证:高级别胶质瘤脱落的细胞外囊泡与核磁共振成像上高血管肿瘤组织的体积之间存在正相关关系

E. Gaudette, M. Willms, J. Han, J. Roy, A. Weeks, M. Schmidt
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引用次数: 0

摘要

背景:高级别胶质瘤(HGGs)会将细胞外囊泡(EVs)渗入血液。血浆中可检测到EV衍生RNA(EV-RNA),这使其成为HGG治疗后复发的潜在生物标志物。我们试图建立血浆中 EV-RNA 与 MRI 上高血管 HGG 组织之间的基线关系。方法:八名新诊断为 HGG 的患者进行了血浆 EV-RNA 和同期动态感性对比 (DSC) MRI 的测量。根据相对脑血容量(rCBV)图上的 10 个测量值确定患者特异性胼胝体中位数信号强度(mSI-CC)。在rCBV图上对信号强度大于mSI-CC且大于2倍、3倍、4倍和5倍mSI-CC的肿瘤组织进行分割。EV-RNA血浆浓度与组织体积相关。结果显示皮尔逊相关性显示,EV-RNA 血浆浓度与信号强度 > mSI-CC 的组织体积呈显著正相关(r(6) = 0.899,p = 0.002)。在信号强度大于 2x、大于 3x、大于 4x 和大于 5x mSI-CC 的组织体积逐渐变小的情况下,检测不到明显的关系。结论EV-RNA 血浆浓度与基线时 DSC MRI 上高血管 HGG 组织的总体积密切相关,值得在纵向成像研究中作为肿瘤行为的生物标志物进行进一步评估。
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E.2 Proof of concept for liquid biopsy: positive correlation between extracellular vesicles shed by high grade gliomas and volume of hypervascular tumour tissue on MRI
Background: High grade gliomas (HGGs) shed extracellular vesicles (EVs) into the bloodstream. EV-derived RNA (EV-RNA) can be detected in plasma, making it a potential biomarker for HGG recurrence after treatment. We sought to establish a baseline relationship between EV-RNA in plasma and hypervascular HGG tissue on MRI. Methods: Eight patients with a new diagnosis of HGG had measurements of plasma EV-RNA and contemporaneous dynamic susceptibility contrast (DSC) MRI. Patient-specific median signal intensity of corpus callosum (mSI-CC) was determined from 10 measurements on the relative cerebral blood volume (rCBV) map. Tumour tissue with signal intensity > mSI-CC and > 2x, > 3x, > 4x and > 5x mSI-CC was segmented on the rCBV map. EV-RNA plasma concentration was correlated with tissue volumes. Results: Pearson correlation showed a significant positive relationship between EV-RNA plasma concentration and tissue volume with signal intensity > mSI-CC (r(6) = 0.899, p = 0.002). No significant relationship could be detected for progressively smaller tissue volumes with signal intensity > 2x, > 3x, > 4x and > 5x mSI-CC. Conclusions: EV-RNA plasma concentration correlates strongly with the total volume of hypervascular HGG tissue on DSC MRI at baseline and merits further evaluation as a biomarker of tumour behaviour in longitudinal imaging studies.
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