Machine vision model using nail images for non-invasive detection of iron deficiency anemia in university students.

IF 2.4 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS

Frontiers in Big Data Pub Date : 2025-04-09 eCollection Date: 2025-01-01 DOI:10.3389/fdata.2025.1557600

Jorge Raul Navarro-Cabrera, Miguel Angel Valles-Coral, María Elena Farro-Roque, Nelly Reátegui-Lozano, Lolita Arévalo-Fasanando

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Abstract

Introduction: Iron deficiency anemia (IDA) is a global health issue that significantly affects quality of life. Non-invasive methods, such as image analysis using artificial vision, offer accessible alternatives for diagnosis. This study proposes a DenseNet169-based model to detect anemia from nail images and compares its performance with that of the Rad-67 hemoglobin meter.

Methods: A cross-sectional study was conducted with 909 nail images collected from university students aged 18-25 years at the Universidad Nacional de San Martín, Peru. Samsung Galaxy A73 5G was used to capture images under controlled conditions, and clinical data were complemented with hemoglobin readings from the Rad-67 device. The images were pre-processed using segmentation and data augmentation techniques to standardize the dataset. Three models (DenseNet169, InceptionV3, and Xception) were trained and evaluated using metrics, such as accuracy, recall, and AUC.

Results: DenseNet169169 demonstrated the best performance, achieving an accuracy of 0.6983, recall of 0.6477, F1-Score of 0.6525, and AUC of 0.7409. Despite the presence of false-negatives, the results showed a positive correlation with Rad-67 readings.

Conclusion: The DenseNet169-based model proved to be a promising tool for non-invasive detection of iron deficiency anemia, with potential for application in clinical and educational settings. Future improvements in preprocessing and dataset diversification could enhance performance and applicability.

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利用指甲图像的机器视觉模型无创检测大学生缺铁性贫血。

缺铁性贫血（IDA）是一个全球性的健康问题，严重影响生活质量。非侵入性方法，如使用人工视觉的图像分析，为诊断提供了可获得的替代方法。本研究提出了一种基于densenet169的指甲图像贫血检测模型，并将其与Rad-67血红蛋白仪的性能进行了比较。方法：对秘鲁国立圣大学Martín 18-25岁大学生的909张指甲图像进行横断面研究。使用三星Galaxy A73 5G在受控条件下采集图像，临床数据与Rad-67设备的血红蛋白读数相补充。使用分割和数据增强技术对图像进行预处理，使数据集标准化。三个模型（DenseNet169， InceptionV3和Xception）被训练并使用度量进行评估，例如准确性，召回率和AUC。结果：DenseNet169169表现最佳，准确率为0.6983，召回率为0.6477，F1-Score为0.6525，AUC为0.7409。尽管存在假阴性，但结果显示与Rad-67读数呈正相关。结论：基于densenet169的模型被证明是一种有前途的无创检测缺铁性贫血的工具，在临床和教育环境中具有应用潜力。未来在预处理和数据集多样化方面的改进可以提高性能和适用性。

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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