肝纤维化分期的集成神经网络和进化算法方法:人工智能能否降低患者成本?

Ali Nazarizadeh, Touraj Banirostam, Taraneh Biglari, Mohammadreza Kalantarhormozi, Fatemeh Chichagi, Amir Hossein Behnoush, Mohammad Amin Habibi, Ramin Shahidi
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摘要

背景:肝纤维化在分期方面非常重要,而肝活检是金标准诊断工具。我们旨在利用基于教学学习的优化算法(TLBO)设计和评估一种人工神经网络(ANN)方法,用于预测献血者和丙型肝炎患者的肝纤维化分期:我们提出了一种基于机器学习分类方法的方法,包括多层感知器神经网络(MLP)、奈夫贝叶斯(NB)、决策树和深度学习。首先,采用合成少数超采样技术(SMOTE)来解决数据集的不平衡问题。之后,实现了 MLP 和 TLBO 的整合:我们提出了一种新算法,将所需的患者特征数量减少到 7 个输入。使用 12 个特征的 MLP 的准确率为 0.903,而使用 TLBO 方法的 MLP 的准确率为 0.891。此外,在应用 SMOTE 平衡器时,除贝叶斯网络设计的模型外,所有方法的诊断准确率都有所提高:结论:决策树深度学习方法在使用 12 个特征时显示出最高的准确率。有趣的是,在使用 TLBO 和 7 个特征的情况下,MLP 的准确率达到了 0.891,与同类研究相比令人满意。通过减少样本所需的特征,所提出的模型提供了很高的诊断准确率,而不会降低准确率。我们的研究结果表明,我们的研究采用的算法更简单、所需属性更低、准确率相似。
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An Integrated Neural Network and Evolutionary Algorithm Approach for Liver Fibrosis Staging: Can Artificial Intelligence Reduce Patient Costs?
Background: Liver fibrosis is important in terms of staging, and liver biopsy is the gold standard diagnostic tool. We aim to design and evaluate an artificial neural network (ANN) method by taking advantage of the Teaching Learning Based Optimization (TLBO) algorithm for the prediction of liver fibrosis stage in blood donors and hepatitis C. Method: We proposed a method based on a selection of machine learning classification methods including Multi Layers Perceptron neural network (MLP), Naive Bayesian (NB), decision tree, and deep learning. Initially, the Synthetic minority oversampling technique (SMOTE) was performed to address the imbalance of the dataset. Afterward, the integration of MLP and TLBO was implemented. Result: We proposed a novel algorithm that reduced the number of required patient features to 7 inputs. The accuracy of MLP using 12 features is 0.903, while the accuracy of the proposed MLP with the TLBO method is 0.891. Besides, the diagnostic accuracy in all methods, except the model designed with the Bayesian Network, increased when the SMOTE balancer was applied. Conclusion: The Decision tree deep learning methods showed the highest levels of accuracy with 12 features. Interestingly, with the use of TLBO and 7 features, the MLP reached a 0.891 accuracy rate which is quite satisfying compared with similar studies. The proposed model provided great diagnostic accuracy by reducing the required properties from the samples without reducing the accuracy. The results of our study showed that the recruited algorithm of our study was more straightforward, with lower required properties and similar accuracy.
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