Application of multiscale Poincaré short-time computation versus multiscale entropy in analyzing fingertip photoplethysmogram amplitudes to differentiate diabetic from non-diabetic subjects

•Non-invasive detection of diabetic microvascular anomaly is vital for early control.•Multiscale Poincaré (MSP) sensitivity to diabetic microvascular change was assessed.•MSP was superior to multiscale entropy for detecting diabetic microvascular anomaly.•Compared with multiscale entropy, MSP has no...

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Published in	Computer methods and programs in biomedicine Vol. 166; pp. 115 - 121
Main Authors	Haryadi, Bagus, Liou, Juin J., Wei, Hai-Cheng, Xiao, Ming-Xia, Wu, Hsien-Tsai, Sun, Cheuk-Kwan
Format	Journal Article
Language	English
Published	Ireland Elsevier B.V 01.11.2018
Subjects	Adult Aged Algorithms Blood Pressure - physiology Diabetes Mellitus - diagnosis Diabetes type 2 Diagnosis, Computer-Assisted - methods Entropy Female Heart Rate - physiology Humans Male Middle Aged Models, Statistical Multiscale entropy (MSE) Multiscale Poincaré (MSP) Photoplethysmogram Photoplethysmography Pulse amplitudes Reproducibility of Results Signal Processing, Computer-Assisted Software Time Factors Multiscale Poincaré (MSP) Multiscale entropy (MSE) Photoplethysmogram Pulse amplitudes Diabetes type 2
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ISSN	0169-2607 1872-7565 1872-7565
DOI	10.1016/j.cmpb.2018.10.001

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Abstract	•Non-invasive detection of diabetic microvascular anomaly is vital for early control.•Multiscale Poincaré (MSP) sensitivity to diabetic microvascular change was assessed.•MSP was superior to multiscale entropy for detecting diabetic microvascular anomaly.•Compared with multiscale entropy, MSP has notably lower computation load. Multiscale Poincaré (MSP) plots have recently been introduced to facilitate the visualization of time series of physiological signals. This study aimed at investigating the feasibility of MSP application in distinguishing subjects with and without diabetes. Using photoplethysmogram (PPG) waveform amplitudes acquired from unilateral fingertip of non-diabetic (n = 34) and diabetic (n = 30) subjects, MSP indices (MSPI) of the two groups were compared using 1000, 500, 250, 100 data points. Data from Poincaré index (short-term variability/long-term variability [i.e. SD1/SD2] ratio, SSR) and multiscale entropy (MSE) were also obtained with the four corresponding data points for comparison. SSR and MSPI were both negatively related to glycated hemoglobin (HbA1c) and fasting blood sugar levels. Significant negative correlation was also noted between MSPI and pulse pressure. When only 500 and 250 data points were included, significant elevations in the non-diabetic group were only noted in MSPI (both p < 0.01). Furthermore, MSPI was significantly higher in non-diabetic than that in diabetic subjects on all scales (i.e., 1–10) but not using MSE when utilizing 1000 data points. The results demonstrated enhanced sensitivity of MSP in differentiating between non-diabetic and diabetic subjects compared to SSR and MSE, highlighting the feasibility of MSP application in biomedical data analysis to reduce computational time and enhance sensitivity.
AbstractList	•Non-invasive detection of diabetic microvascular anomaly is vital for early control.•Multiscale Poincaré (MSP) sensitivity to diabetic microvascular change was assessed.•MSP was superior to multiscale entropy for detecting diabetic microvascular anomaly.•Compared with multiscale entropy, MSP has notably lower computation load. Multiscale Poincaré (MSP) plots have recently been introduced to facilitate the visualization of time series of physiological signals. This study aimed at investigating the feasibility of MSP application in distinguishing subjects with and without diabetes. Using photoplethysmogram (PPG) waveform amplitudes acquired from unilateral fingertip of non-diabetic (n = 34) and diabetic (n = 30) subjects, MSP indices (MSPI) of the two groups were compared using 1000, 500, 250, 100 data points. Data from Poincaré index (short-term variability/long-term variability [i.e. SD1/SD2] ratio, SSR) and multiscale entropy (MSE) were also obtained with the four corresponding data points for comparison. SSR and MSPI were both negatively related to glycated hemoglobin (HbA1c) and fasting blood sugar levels. Significant negative correlation was also noted between MSPI and pulse pressure. When only 500 and 250 data points were included, significant elevations in the non-diabetic group were only noted in MSPI (both p < 0.01). Furthermore, MSPI was significantly higher in non-diabetic than that in diabetic subjects on all scales (i.e., 1–10) but not using MSE when utilizing 1000 data points. The results demonstrated enhanced sensitivity of MSP in differentiating between non-diabetic and diabetic subjects compared to SSR and MSE, highlighting the feasibility of MSP application in biomedical data analysis to reduce computational time and enhance sensitivity. Multiscale Poincaré (MSP) plots have recently been introduced to facilitate the visualization of time series of physiological signals. This study aimed at investigating the feasibility of MSP application in distinguishing subjects with and without diabetes. Using photoplethysmogram (PPG) waveform amplitudes acquired from unilateral fingertip of non-diabetic (n = 34) and diabetic (n = 30) subjects, MSP indices (MSPI) of the two groups were compared using 1000, 500, 250, 100 data points. Data from Poincaré index (short-term variability/long-term variability [i.e. SD1/SD2] ratio, SSR) and multiscale entropy (MSE) were also obtained with the four corresponding data points for comparison. SSR and MSPI were both negatively related to glycated hemoglobin (HbA1c) and fasting blood sugar levels. Significant negative correlation was also noted between MSPI and pulse pressure. When only 500 and 250 data points were included, significant elevations in the non-diabetic group were only noted in MSPI (both p < 0.01). Furthermore, MSPI was significantly higher in non-diabetic than that in diabetic subjects on all scales (i.e., 1-10) but not using MSE when utilizing 1000 data points. The results demonstrated enhanced sensitivity of MSP in differentiating between non-diabetic and diabetic subjects compared to SSR and MSE, highlighting the feasibility of MSP application in biomedical data analysis to reduce computational time and enhance sensitivity. Multiscale Poincaré (MSP) plots have recently been introduced to facilitate the visualization of time series of physiological signals. This study aimed at investigating the feasibility of MSP application in distinguishing subjects with and without diabetes.BACKGROUND AND OBJECTIVESMultiscale Poincaré (MSP) plots have recently been introduced to facilitate the visualization of time series of physiological signals. This study aimed at investigating the feasibility of MSP application in distinguishing subjects with and without diabetes.Using photoplethysmogram (PPG) waveform amplitudes acquired from unilateral fingertip of non-diabetic (n = 34) and diabetic (n = 30) subjects, MSP indices (MSPI) of the two groups were compared using 1000, 500, 250, 100 data points. Data from Poincaré index (short-term variability/long-term variability [i.e. SD1/SD2] ratio, SSR) and multiscale entropy (MSE) were also obtained with the four corresponding data points for comparison.METHODSUsing photoplethysmogram (PPG) waveform amplitudes acquired from unilateral fingertip of non-diabetic (n = 34) and diabetic (n = 30) subjects, MSP indices (MSPI) of the two groups were compared using 1000, 500, 250, 100 data points. Data from Poincaré index (short-term variability/long-term variability [i.e. SD1/SD2] ratio, SSR) and multiscale entropy (MSE) were also obtained with the four corresponding data points for comparison.SSR and MSPI were both negatively related to glycated hemoglobin (HbA1c) and fasting blood sugar levels. Significant negative correlation was also noted between MSPI and pulse pressure. When only 500 and 250 data points were included, significant elevations in the non-diabetic group were only noted in MSPI (both p < 0.01). Furthermore, MSPI was significantly higher in non-diabetic than that in diabetic subjects on all scales (i.e., 1-10) but not using MSE when utilizing 1000 data points.RESULTSSSR and MSPI were both negatively related to glycated hemoglobin (HbA1c) and fasting blood sugar levels. Significant negative correlation was also noted between MSPI and pulse pressure. When only 500 and 250 data points were included, significant elevations in the non-diabetic group were only noted in MSPI (both p < 0.01). Furthermore, MSPI was significantly higher in non-diabetic than that in diabetic subjects on all scales (i.e., 1-10) but not using MSE when utilizing 1000 data points.The results demonstrated enhanced sensitivity of MSP in differentiating between non-diabetic and diabetic subjects compared to SSR and MSE, highlighting the feasibility of MSP application in biomedical data analysis to reduce computational time and enhance sensitivity.CONCLUSIONSThe results demonstrated enhanced sensitivity of MSP in differentiating between non-diabetic and diabetic subjects compared to SSR and MSE, highlighting the feasibility of MSP application in biomedical data analysis to reduce computational time and enhance sensitivity.
Author	Wei, Hai-Cheng Wu, Hsien-Tsai Xiao, Ming-Xia Haryadi, Bagus Sun, Cheuk-Kwan Liou, Juin J.
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Cites_doi	10.1016/j.jtbi.2013.03.022 10.1046/j.1475-097X.2003.00466.x 10.3390/e17053110 10.1007/s11517-014-1220-4 10.1016/j.atherosclerosis.2010.08.075 10.1152/ajpheart.2000.278.6.H2039 10.1016/j.ijcard.2016.09.026 10.1186/s12911-016-0252-0 10.3390/s17040787 10.2478/slgr-2013-0031 10.1016/j.bspc.2017.07.003 10.1177/1479164116688870 10.3390/e19040145 10.1186/1475-925X-10-17 10.1109/10.959330 10.1103/PhysRevLett.89.068102 10.1109/TBME.2011.2159975
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Keywords	Multiscale Poincaré (MSP) Multiscale entropy (MSE) Photoplethysmogram Pulse amplitudes Diabetes type 2
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Snippet	•Non-invasive detection of diabetic microvascular anomaly is vital for early control.•Multiscale Poincaré (MSP) sensitivity to diabetic microvascular change... Multiscale Poincaré (MSP) plots have recently been introduced to facilitate the visualization of time series of physiological signals. This study aimed at...
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SubjectTerms	Adult Aged Algorithms Blood Pressure - physiology Diabetes Mellitus - diagnosis Diabetes type 2 Diagnosis, Computer-Assisted - methods Entropy Female Heart Rate - physiology Humans Male Middle Aged Models, Statistical Multiscale entropy (MSE) Multiscale Poincaré (MSP) Photoplethysmogram Photoplethysmography Pulse amplitudes Reproducibility of Results Signal Processing, Computer-Assisted Software Time Factors
Title	Application of multiscale Poincaré short-time computation versus multiscale entropy in analyzing fingertip photoplethysmogram amplitudes to differentiate diabetic from non-diabetic subjects
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