基于机器学习识别与肝细胞癌诊断相关的关键特征 RNA 标识

IF 3.3 Q2 GASTROENTEROLOGY & HEPATOLOGY Journal of Clinical and Experimental Hepatology Pub Date : 2024-06-14 DOI:10.1016/j.jceh.2024.101456

Marwa Matboli , Gouda I. Diab , Maha Saad , Abdelrahman Khaled , Marian Roushdy , Marwa Ali , Hind A. ELsawi , Ibrahim H. Aboughaleb

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引用次数: 0

摘要

背景肝细胞癌（HCC）是全球恶性肿瘤相关死亡率的第三大主要原因。早期准确识别 HCC 对患者的良好预后、疗效和生存率至关重要。我们的目标是开发一种机器学习模型，将差异表达的 RNA 特征与实验室参数结合起来，构建基于 RNA 特征的 HCC 诊断模型。方法我们使用了五种分类器（KNN、RF、SVM、LGBM 和 DNNs）来预测肝病（HCC）。这些分类器在 187 个样本上进行了训练，然后在 80 个样本上进行了测试。该模型包括 22 个特征（年龄、性别、吸烟、肝硬化、非肝硬化、白蛋白、ALT、AST 胆红素（总胆红素和直接胆红素）、INR、AFP、HBV Ag、HCV Abs、RQmiR-1298、RQmiR-1262、RQmiR-106b-3p、RQmRNARAB11A 和 RQSTAT1、RQmRNAATG12、RQLnc-WRAP53、RQLncRNA- RP11-513I15）。6).ResultsLGBM 预测 HCC 的准确率最高，达到 98.结论我们的机器学习模型结合了 RAB11A/STAT1/ATG12/miR-1262/miR-1298/miR-106b-3p/lncRNA-RP11-513I15.6/lncRNA-WRAP53 特征的表达数据和临床数据，是一种潜在的新型 HCC 诊断模型。

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Machine-Learning-Based Identification of Key Feature RNA-Signature Linked to Diagnosis of Hepatocellular Carcinoma

Background

Hepatocellular carcinoma (HCC) is the third prime cause of malignancy-related mortality worldwide. Early and accurate identification of HCC is crucial for good prognosis, efficacy of therapy, and survival rates of the patients. We aimed to develop a machine-learning model incorporating differentially expressed RNA signatures with laboratory parameters to construct an RNA signature-based diagnostic model for HCC.

Methods

We have used five classifiers (KNN, RF, SVM, LGBM, and DNNs) to predict the liver disease (HCC). The classifiers were trained on 187 samples and then tested on 80 samples. The model included 22 features (age, sex, smoking, cirrhosis, non-cirrhosis, albumin, ALT, AST bilirubin (total and direct), INR, AFP, HBV Ag, HCV Abs, RQmiR-1298, RQmiR-1262, RQmiR-106b-3p, RQmRNARAB11A, and RQSTAT1, RQmRNAATG12, RQLnc-WRAP53, RQLncRNA- RP11-513I15.6).

Results

LGBM achieved the highest accuracy of 98.75% in predicting HCC among all models surpassing Random Forest (96.25%), DNN (91.25%), SVC (88.75%), and KNN (87.50%).

Conclusion

Our machine-learning model incorporating the expression data of RAB11A/STAT1/ATG12/miR-1262/miR-1298/miR-106b-3p/lncRNA-RP11-513I15.6/lncRNA-WRAP53 signature and clinical data represents a potential novel diagnostic model for HCC.

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