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多光谱内镜视频中的实用灌注定量:使用吲哚菁绿注射后几分钟评估组织病理学。

Practical Perfusion Quantification in Multispectral Endoscopic Video: Using the Minutes after ICG Administration to Assess Tissue Pathology.

机构信息

IBM Research Europe, Dublin, Ireland.

Royal College of Surgeons in Ireland.

出版信息

AMIA Annu Symp Proc. 2022 Feb 21;2021:428-437. eCollection 2021.

PMID:35308965
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8861725/
Abstract

The wide availability of near infrared light sources in interventional medical imaging stacks enables non-invasive quantification of perfusion by using fluorescent dyes, typically Indocyanine Green (ICG). Due to their often leaky and chaotic vasculatures, intravenously administered ICG perfuses through cancerous tissues differently. We investigate here how a few characteristic values derived from the time series of fluorescence can be used in simple machine learning algorithms to distinguish benign lesions from cancers. These features capture the initial uptake of ICG in the colon, its peak fluorescence, and its early wash-out. By using simple, explainable algorithms we demonstrate, in clinical cases, that sensitivity (specificity) rates of over 95% (95%) for cancer classification can be achieved.

摘要

介入医学成像系统中近红外光源的广泛应用,使得通过荧光染料(通常是吲哚菁绿 ICG)进行非侵入式灌注定量成为可能。由于其渗漏和混乱的脉管系统,静脉注射的 ICG 在穿过癌变组织时的灌注方式也不同。在这里,我们研究了如何从荧光时间序列中提取几个特征值,并将其应用于简单的机器学习算法中,以区分良性病变和癌症。这些特征值捕捉了 ICG 在结肠中的初始摄取、峰值荧光强度以及早期洗脱情况。通过使用简单、可解释的算法,我们在临床病例中证明,对于癌症分类,超过 95%(95%)的灵敏度(特异性)率是可以实现的。