Deep Learning Model-Based Detection of Anemia from Conjunctiva Images.

IF 2.3 Q3 MEDICAL INFORMATICS

Healthcare Informatics Research Pub Date : 2025-01-01 Epub Date: 2025-01-31 DOI:10.4258/hir.2025.31.1.57

Najmus Sehar, Nirmala Krishnamoorthi, C Vinoth Kumar

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引用次数: 0

Abstract

Objectives: Anemia is characterized by a reduction in red blood cells, leading to insufficient levels of hemoglobin, the molecule responsible for carrying oxygen. The current standard method for diagnosing anemia involves analyzing blood samples, a process that is time-consuming and can cause discomfort to participants. This study offers a comprehensive analysis of non-invasive anemia detection using conjunctiva images processed through various machine learning and deep learning models. The focus is on the palpebral conjunctiva, which is highly vascular and unaffected by melanin content.

Methods: Conjunctiva images from both anemic and non-anemic participants were captured using a smartphone. A total of 764 conjunctiva images were augmented to 4,315 images using the deep convolutional generative adversarial network model to prevent overfitting and enhance model robustness. These processed and augmented images were then utilized to train and test multiple models, including statistical regression, machine learning algorithms, and deep learning frameworks.

Results: The stacking ensemble framework, which includes the models VGG16, ResNet-50, and InceptionV3, achieved a high area under the curve score of 0.97. This score demonstrates the framework's exceptional capability in detecting anemia through a noninvasive approach.

Conclusions: This study introduces a noninvasive method for detecting anemia using conjunctiva images obtained with a smartphone and processed using advanced deep learning techniques.

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基于深度学习模型的结膜图像贫血检测。

目的：贫血的特点是红细胞减少，导致血红蛋白（负责携带氧气的分子）水平不足。目前诊断贫血的标准方法包括分析血液样本，这个过程很耗时，而且会给参与者带来不适。本研究通过各种机器学习和深度学习模型处理结膜图像，对无创贫血检测进行了全面分析。重点是眼睑结膜，这是高度血管和不受黑色素含量的影响。方法：使用智能手机捕捉贫血和非贫血参与者的结膜图像。使用深度卷积生成对抗网络模型将764张结膜图像增强到4,315张，以防止过拟合并增强模型的鲁棒性。然后利用这些经过处理和增强的图像来训练和测试多个模型，包括统计回归、机器学习算法和深度学习框架。结果：包括VGG16、ResNet-50和InceptionV3模型在内的叠加集成框架获得了较高的曲线下面积得分0.97。这个分数证明了该框架在通过无创方法检测贫血方面的卓越能力。结论：本研究介绍了一种无创检测贫血的方法，该方法使用智能手机获取结膜图像，并使用先进的深度学习技术进行处理。

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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来源期刊

Healthcare Informatics Research MEDICAL INFORMATICS-

CiteScore

4.90

自引率

6.90%

发文量