Gene pointNet for tumor classification

Neural Computing and Applications Pub Date : 2024-08-22 DOI:10.1007/s00521-024-10307-x

Hao Lu, Mostafa Rezapour, Haseebullah Baha, Muhammad Khalid Khan Niazi, Aarthi Narayanan, Metin Nafi Gurcan

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Abstract

The rising incidence of cancer underscores the imperative for innovative diagnostic and prognostic methodologies. This study delves into the potential of RNA-Seq gene expression data to enhance cancer classification accuracy. Introducing a pioneering approach, we model gene expression data as point clouds, capitalizing on the data's intrinsic properties to bolster classification performance. Utilizing PointNet, a typical technique for processing point cloud data, as our framework's cornerstone, we incorporate inductive biases pertinent to gene expression and pathways. This integration markedly elevates model efficacy, culminating in developing an end-to-end deep learning classifier with an accuracy rate surpassing 99%. Our findings not only illuminate the capabilities of AI-driven models in the realm of oncology but also highlight the criticality of acknowledging biological dataset nuances in model design. This research provides insights into application of deep learning in medical science, setting the stage for further innovation in cancer classification through sophisticated biological data analysis. The source code for our study is accessible at: https://github.com/cialab/GPNet.

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用于肿瘤分类的基因点网络

癌症发病率的上升凸显了创新诊断和预后方法的必要性。本研究深入探讨了 RNA-Seq 基因表达数据在提高癌症分类准确性方面的潜力。我们采用了一种开创性的方法，将基因表达数据建模为点云，利用数据的内在属性来提高分类性能。利用处理点云数据的典型技术 PointNet 作为框架的基石，我们纳入了与基因表达和通路相关的归纳偏差。这种整合显著提高了模型的功效，最终开发出一种端到端的深度学习分类器，准确率超过 99%。我们的发现不仅阐明了人工智能驱动模型在肿瘤学领域的能力，还强调了在模型设计中承认生物数据集细微差别的重要性。这项研究为深度学习在医学科学中的应用提供了见解，为通过复杂的生物数据分析进一步创新癌症分类奠定了基础。我们研究的源代码请访问：https://github.com/cialab/GPNet。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Neural Computing and Applications

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