| Literature DB >> 32420103 |
Xin Zhang1,2,3,4, Kai Gu5, Shumei Miao1,2,3, Xiaoliang Zhang1,2,3, Yuechuchu Yin1,2,3, Cheng Wan2,3, Yun Yu2,3, Jie Hu2,3, Zhongmin Wang1,2,3, Tao Shan1,2,3, Shenqi Jing1,2,3, Wenming Wang1,2,3, Yun Ge4, Yin Chen4, Jianjun Guo1,2,3, Yun Liu1,2,3.
Abstract
Automated electrocardiogram (ECG) diagnosis could be a useful aid for clinical use. We applied a deep learning method to build a system for automated detection and classification of ECG signals. We first trained a convolutional neural network (CNN) to detect cardiovascular disease in ECG signals using a training data set of 259,789 ECG signals collected from the cardiac function rooms of a tertiary care hospital. The CNN classification was validated using an independent test data set of 18,018 ECG signals. The labels used covered >90% of clinical diagnoses. The system grouped ECGs into 18 classifications-17 different types of abnormalities and normal ECG. The overall accuracy of the model was tested and found to be close to 95%; the accuracy for diagnosis of normal rhythm/atrial fibrillation was 99.15%. The proposed CNN model could help reduce misdiagnosis and missed diagnosis in primary care settings and also improve efficiency and save manpower cost for large general hospitals. 2020 Cardiovascular Diagnosis and Therapy. All rights reserved.Entities:
Keywords: Deep learning; algorithm; electrocardiogram (ECG); neural network
Year: 2020 PMID: 32420103 PMCID: PMC7225435 DOI: 10.21037/cdt.2019.12.10
Source DB: PubMed Journal: Cardiovasc Diagn Ther ISSN: 2223-3652