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Article type: Research Article
Authors: Li, Miao-Miaoa | Pan, Jian-Xiaa | Wang, Jin-Hanga | Hu, Zi-Leia | Zhao, Jingb | Wei, Hai-Chenga; *
Affiliations: [a] School of Electrical and Information Engineering, North Minzu University, Yinchuan, Ningxia, China | [b] School of Information Engineering, Ningxia University, Yinchuan, Ningxia, China
Correspondence: [*] Corresponding author: Hai-Cheng Wei, School of Electrical and Information Engineering, North Minzu University, No. 204 North Wenchang Street, Yinchuan, Ningxia 750021, China. Email: wei_hc@nun.edu.cn.
Abstract: BACKGROUND: Diabetes is a chronic disease that can lead to a variety of complications and even cause death. The signal characteristics of the photoplethysmography signals (PPG) and electrocardiogram signals (ECG) can reflect the autonomic and vascular aspects of the effects of diabetes on the body. OBJECTIVE: Based on the complex mechanism of interaction between PPG and ECG, a set of ensemble empirical mode decomposition-independent component analysis (EEMD-ICA) fusion multi-scale percussion entropy index (MSPEI) method was proposed to analyze cardiovascular function in diabetic patients. METHODS: Firstly, the original signal was decomposed into multiple Intrinsic Mode Function (IMFs) by ensemble empirical mode decomposition EEMD, principal components of IMF were extracted by independent component analysis (ICA), then the extracted principal components were reconstructed to eliminate the complex high and low frequency noise of physiological signals. In addition, the MSPEI was calculated for the ECG R-R interval and PPG amplitude sequence.(RRI and Amp) The results showed that, compared with EEMD method, the SNR of EEMD-ICA method increases from 2.1551 to 11.3642, and the root mean square error (RMSE) decreases from 0.0556 to 0.0067. This algorithm can improve the performance of denoising and retain more feature information. The large and small scale entropy of MSPEI (RRI,Amp) was significantly different between healthy and diabetic patients (p< 0.01). RESULTS: Compared with arteriosclerosis index (AI) and multi-scale cross-approximate entropy (MCAE): MSPEISS (RRI,Amp) indicated that diabetes can affect the activity of human autonomic nervous system, while MSPEILS (RRI,Amp) indicated that diabetes can cause or worsen arteriosclerosis. CONCLUSION: Multi-scale Percussion Entropy algorithm has more advantages in analyzing the influence of diabetes on human cardiovascular and autonomic nervous function.
Keywords: Diabetes, electrocardiogram, photoplethysmography, empirical mode decomposition-independent component analysis, multi-scale percussion entropy
DOI: 10.3233/THC-230243
Journal: Technology and Health Care, vol. 32, no. 2, pp. 809-821, 2024
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