An intelligent magnetic resonance imagining-based multistage Alzheimer's disease classification using swish-convolutional neural networks.

IF 2.6 4区医学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Medical & Biological Engineering & Computing Pub Date : 2024-11-15 DOI:10.1007/s11517-024-03237-2

Archana B, K Kalirajan

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引用次数: 0

Abstract

Alzheimer's disease (AD) refers to a neurological disorder that causes damage to brain cells and results in decreasing cognitive abilities and memory. In brain scans, this degeneration can be seen in different ways. The disease can be classified into four stages: Non-demented (ND), moderate demented (MoD), mild demented (MiD), and very mild demented (VMD). To prepare the raw dataset for analysis, the collected magnetic resonance imaging (MRI) images are subjected to several pre-processing techniques in order to improve the performance accuracy of the proposed model. Medical images generally have poor contrast and get affected by noise, which ends up with inaccurate diagnosis. For the different phases of AD to be detected, a clear image is necessary. To address this issue, the influence of the artefacts must be reduced, enhance the contrast, and reduce the loss of information. A novel framework for image enhancement is suggested to increase the accuracy in the detection and identification of AD. In this study, the raw MRI dataset from the Alzheimer's disease neuroimaging initiative (ADNI) database is subjected to skull stripping, contrast enhancement, and image filtering followed by data augmentation to balance the dataset with four types of Alzheimer's classes. The pre-processed data are subjected to five different pre-trained models such as AlexNet, ResNet, VGG 16, EfficientNet, and Inceptionv3 achieving a testing accuracy rate of 91.2%, 88.21%, 92.34%, 93.45%, and 85.12%, respectively. These pre-trained models are compared with the proposed CNN (convolutional neural network) model designed with Adam optimizer and Flatten Swish activation function which reaches the highest accuracy of 96.5% with a learning rate of 0.000001. The five pre-trained CNN models along with the proposed swish-based AD-CNN were tested using various performance metrics to evaluate the model efficiency in classifying and identifying the AD classes. From the result analysis, it is evident that the proposed AD-CNN model outperforms all the other models.

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基于磁共振成像的智能阿尔茨海默病多级分类法（swish-convolutional neural networks）。

阿尔茨海默病（AD）是指一种神经系统疾病，会对脑细胞造成损伤，导致认知能力和记忆力下降。在大脑扫描中，可以通过不同的方式看到这种退化。这种疾病可分为四个阶段：非痴呆（ND）、中度痴呆（MoD）、轻度痴呆（MiD）和极轻度痴呆（VMD）。为了准备用于分析的原始数据集，对收集到的磁共振成像（MRI）图像采用了多种预处理技术，以提高拟议模型的性能精度。医学影像通常对比度较差，并受到噪声的影响，最终导致诊断不准确。要检测出 AD 的不同阶段，必须要有清晰的图像。为了解决这个问题，必须减少伪影的影响，增强对比度，减少信息损失。本研究提出了一种新的图像增强框架，以提高检测和识别 AD 的准确性。在这项研究中，对来自阿尔茨海默病神经影像计划（ADNI）数据库的原始 MRI 数据集进行了颅骨剥离、对比度增强和图像滤波处理，然后进行数据增强，以平衡数据集中的四种阿尔茨海默病类型。预处理后的数据经过 AlexNet、ResNet、VGG 16、EfficientNet 和 Inceptionv3 等五种不同的预训练模型处理，测试准确率分别达到 91.2%、88.21%、92.34%、93.45% 和 85.12%。这些预训练模型与使用 Adam 优化器和 Flatten Swish 激活函数设计的拟议卷积神经网络（CNN）模型进行了比较，后者的准确率最高，达到 96.5%，学习率为 0.000001。我们使用各种性能指标对五个预先训练好的 CNN 模型和所提出的基于 Swish 的 AD-CNN 进行了测试，以评估模型在分类和识别 AD 类别方面的效率。从结果分析中可以看出，所提出的 AD-CNN 模型优于所有其他模型。

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

Medical & Biological Engineering & Computing 医学-工程：生物医学

CiteScore

6.00

自引率

3.10%

发文量

249

审稿时长

3.5 months

期刊介绍： Founded in 1963, Medical & Biological Engineering & Computing (MBEC) continues to serve the biomedical engineering community, covering the entire spectrum of biomedical and clinical engineering. The journal presents exciting and vital experimental and theoretical developments in biomedical science and technology, and reports on advances in computer-based methodologies in these multidisciplinary subjects. The journal also incorporates new and evolving technologies including cellular engineering and molecular imaging. MBEC publishes original research articles as well as reviews and technical notes. Its Rapid Communications category focuses on material of immediate value to the readership, while the Controversies section provides a forum to exchange views on selected issues, stimulating a vigorous and informed debate in this exciting and high profile field. MBEC is an official journal of the International Federation of Medical and Biological Engineering (IFMBE).