利用基于动态因子和游走策略特征选择的 CNN 检测蛛网膜下腔出血

IF 3 3区 医学 Q1 MEDICINE, GENERAL & INTERNAL Diagnostics Pub Date : 2024-10-30 DOI:10.3390/diagnostics14212417
Jewel Sengupta, Robertas Alzbutas, Tomas Iešmantas, Vytautas Petkus, Alina Barkauskienė, Vytenis Ratkūnas, Saulius Lukoševičius, Aidanas Preikšaitis, Indre Lapinskienė, Mindaugas Šerpytis, Edgaras Misiulis, Gediminas Skarbalius, Robertas Navakas, Algis Džiugys
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引用次数: 0

摘要

目的:蛛网膜下腔出血(SAH)是一种严重的神经系统急症,死亡率较高。需要对蛛网膜下腔出血进行自动检测,以加快和提高识别率,为及时有效的治疗提供帮助。由于 NCCT 图像中存在噪声和不同的解剖结构,标注 SAH 数据的可用性有限,以及训练效果不佳,导致了不相关特征、过度拟合和梯度消失等问题,使 SAH 检测成为一项具有挑战性的任务。方法本研究提出了基于水波动态因子和徘徊策略的沙猫群优化方法(即 DWSCSO),以确保最佳特征选择,同时开发了具有堆叠卷积神经网络的参数整型线性单元(即 PRSCNN),用于对 SAH 进行等级分类。DWSCSO 和 PRSCNN 通过改进特征选择和分类准确性,超越了目前的 SAH 检测方法。DWSCSO 的提出确保了最佳特征选择,以更高的探索能力避免了局部最优问题,并避免了分类中的过拟合问题。首先,本研究采用了一种改进的区域生长方法,对患者的非对比计算机断层扫描(NCCT)图像进行SAH受影响区域的分割。从分割出的区域中,从预先训练好的模型(如 GoogleNet、Visual Geometry Group (VGG)-16 和 ResNet50)中提取广泛的模式和不规则性、细粒度纹理和细节以及复杂和抽象的特征。然后,开发了 PRSCNN,用于对 SAH 的等级进行分类,这有助于避免梯度消失问题。结果与其他模型相比,DWSCSO-PRSCNN 获得了 99.48% 的最高准确率。与 DL-ICH 和 GoogLeNet +(GLCM 和 LBP)、ResNet-50 +(GLCM 和 LBP)以及 AlexNet +(GLCM 和 LBP)相比,DWSCSO-PRSCNN 在 CT 数据集中的准确率提高了 99.62%,这证实了 DWSCSO-PRSCNN 能有效减少误报和误判。结论:在本研究中,DWSCSO-PRSCNN 的复杂性是可以接受的,因为虽然更简单的方法似乎更好,但它们无法解决过度拟合和梯度消失等问题。因此,用于优化特征选择的 DWSCSO 和用于稳健分类的 PRSCNN 对于应对这些挑战和提高不同临床环境下的检测能力至关重要。
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Detection of Subarachnoid Hemorrhage Using CNN with Dynamic Factor and Wandering Strategy-Based Feature Selection.

Objectives: Subarachnoid Hemorrhage (SAH) is a serious neurological emergency case with a higher mortality rate. An automatic SAH detection is needed to expedite and improve identification, aiding timely and efficient treatment pathways. The existence of noisy and dissimilar anatomical structures in NCCT images, limited availability of labeled SAH data, and ineffective training causes the issues of irrelevant features, overfitting, and vanishing gradient issues that make SAH detection a challenging task. Methods: In this work, the water waves dynamic factor and wandering strategy-based Sand Cat Swarm Optimization, namely DWSCSO, are proposed to ensure optimum feature selection while a Parametric Rectified Linear Unit with a Stacked Convolutional Neural Network, referred to as PRSCNN, is developed for classifying grades of SAH. The DWSCSO and PRSCNN surpass current practices in SAH detection by improving feature selection and classification accuracy. DWSCSO is proposed to ensure optimum feature selection, avoiding local optima issues with higher exploration capacity and avoiding the issue of overfitting in classification. Firstly, in this work, a modified region-growing method was employed on the patient Non-Contrast Computed Tomography (NCCT) images to segment the regions affected by SAH. From the segmented regions, the wide range of patterns and irregularities, fine-grained textures and details, and complex and abstract features were extracted from pre-trained models like GoogleNet, Visual Geometry Group (VGG)-16, and ResNet50. Next, the PRSCNN was developed for classifying grades of SAH which helped to avoid the vanishing gradient issue. Results: The DWSCSO-PRSCNN obtained a maximum accuracy of 99.48%, which is significant compared with other models. The DWSCSO-PRSCNN provides an improved accuracy of 99.62% in CT dataset compared with the DL-ICH and GoogLeNet + (GLCM and LBP), ResNet-50 + (GLCM and LBP), and AlexNet + (GLCM and LBP), which confirms that DWSCSO-PRSCNN effectively reduces false positives and false negatives. Conclusions: the complexity of DWSCSO-PRSCNN was acceptable in this research, for while simpler approaches appeared preferable, they failed to address problems like overfitting and vanishing gradients. Accordingly, the DWSCSO for optimized feature selection and PRSCNN for robust classification were essential for handling these challenges and enhancing the detection in different clinical settings.

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来源期刊
Diagnostics
Diagnostics Biochemistry, Genetics and Molecular Biology-Clinical Biochemistry
CiteScore
4.70
自引率
8.30%
发文量
2699
审稿时长
19.64 days
期刊介绍: Diagnostics (ISSN 2075-4418) is an international scholarly open access journal on medical diagnostics. It publishes original research articles, reviews, communications and short notes on the research and development of medical diagnostics. There is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental and/or methodological details must be provided for research articles.
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