超越像素：图形过滤学习揭示肝癌成像的新维度。

Q2 Medicine Oncotarget Pub Date : 2024-07-24 DOI:10.18632/oncotarget.28635

Yashbir Singh

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引用次数: 0

摘要

这篇社论探讨了图形过滤学习（GFL）在彻底改变肝细胞癌（HCC）成像分析中的新兴作用。由于传统的基于像素的方法已达到极限，GFL 提供了一种捕捉医学图像中复杂拓扑特征的新方法。通过将成像数据表示为图形并利用持久同源性，GFL 揭示了以前无法获取的新的信息维度。这种模式的转变为提高 HCC 诊断、治疗规划和预后带来了希望。我们将讨论 GFL 的原理、其在 HCC 成像中的潜在应用，以及将这一创新技术转化为临床实践所面临的挑战。

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Beyond pixels: Graph filtration learning unveils new dimensions in hepatocellular carcinoma imaging.

This editorial explores the emerging role of Graph Filtration Learning (GFL) in revolutionizing Hepatocellular carcinoma (HCC) imaging analysis. As traditional pixel-based methods reach their limits, GFL offers a novel approach to capture complex topological features in medical images. By representing imaging data as graphs and leveraging persistent homology, GFL unveils new dimensions of information that were previously inaccessible. This paradigm shift holds promise for enhancing HCC diagnosis, treatment planning, and prognostication. We discuss the principles of GFL, its potential applications in HCC imaging, and the challenges in translating this innovative technique into clinical practice.

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