Your search keyword '"Rami Lehtinen"' showing total 2 results

1. Heart rate variability derived from exercise ECG in the detection of coronary artery disease

Author

Rami Lehtinen, Väinö Turjanmaa, Kari Niemelä, Matti Virtanen, Tiit Kööbi, Jari Viik, Jaakko Malmivuo, Mika Kähönen, Mika P. Tarvainen, Pasi A. Karjalainen, Kjell Nikus, Mari Niemi, Terho Lehtimäki, and Tuomo Nieminen

Subjects

Male, medicine.medical_specialty, Correlation coefficient, Physiology, Biomedical Engineering, Biophysics, Coronary Artery Disease, Coronary artery disease, Correlation, Electrocardiography, Heart Rate, Physiology (medical), Internal medicine, Heart rate, Humans, Medicine, Heart rate variability, Exercise ecg, Receiver operating characteristic, medicine.diagnostic_test, business.industry, Middle Aged, medicine.disease, ROC Curve, Exercise Test, Cardiology, Female, business, circulatory and respiratory physiology

Abstract

The diagnostic performance of heart rate variability (HRV) analysis from exercise ECG in the detection of coronary artery disease (CAD) is unknown. Bicycle exercise ECG recordings from The Finnish Cardiovascular Study (FINCAVAS) of angiography-proofed CAD patients (n = 112) and a patient group with a low likelihood of CAD (n = 114) were analyzed. HRV parameters (SDNN, RMSSD, Poincaré SD1 and SD2) were calculated from 1 min segments before exercise, during exercise and after exercise. All the parameters were in addition calculated from heart rate (HR)-corrected RR-interval segments. The ST-segment depressions in each stage were also determined. The diagnostic performance of the parameters was evaluated with the area under the receiver operating characteristic (ROC) curve method. The uncorrected HRV parameters showed the best diagnostic performance in the recovery segments but the correlation with HR was also high (SDNN: 0.758/-0.64, RMSSD: 0.747/-0.60; area under the ROC/correlation coefficient). The HR correction decreased the correlation and the diagnostic performance in recovery segments (SDNN: 0.515/-0.12, RMSSD: 0.609/0.20). The diagnostic performance of ST-level at its best was higher than any of HRV parameters (ST-level: 0.795/0.36). According to the results, the HR correction decreased the diagnostic performance of the recovery phase. The HRV parameters calculated from 1 min segments of exercise test ECG were not as capable as traditional ST-segment analysis. In conclusion, the HRV analysis from exercise or recovery phase seems to be inadequate in the detection of CAD.

Published

2007

2. Heart rate variability derived from exercise ECG in the detection of coronary artery disease.

Author

Matti Virtanen, Mika K, Tuomo Nieminen, Pasi Karjalainen, Mika Tarvainen, Terho Lehtim, Rami Lehtinen, Kjell Nikus, Tiit K, Mari Niemi, Kari Niemel, Väinö Turjanmaa, Jaakko Malmivuo, and Jari Viik

Subjects

HEART beat, ELECTROCARDIOGRAPHY, EXERCISE, CORONARY disease

Abstract

The diagnostic performance of heart rate variability (HRV) analysis from exercise ECG in the detection of coronary artery disease (CAD) is unknown. Bicycle exercise ECG recordings from The Finnish Cardiovascular Study (FINCAVAS) of angiography-proofed CAD patients (n = 112) and a patient group with a low likelihood of CAD (n = 114) were analyzed. HRV parameters (SDNN, RMSSD, Poincaré SD1 and SD2) were calculated from 1 min segments before exercise, during exercise and after exercise. All the parameters were in addition calculated from heart rate (HR)-corrected RR-interval segments. The ST-segment depressions in each stage were also determined. The diagnostic performance of the parameters was evaluated with the area under the receiver operating characteristic (ROC) curve method. The uncorrected HRV parameters showed the best diagnostic performance in the recovery segments but the correlation with HR was also high (SDNN: 0.758/[?]0.64, RMSSD: 0.747/[?]0.60; area under the ROC/correlation coefficient). The HR correction decreased the correlation and the diagnostic performance in recovery segments (SDNN: 0.515/[?]0.12, RMSSD: 0.609/0.20). The diagnostic performance of ST-level at its best was higher than any of HRV parameters (ST-level: 0.795/0.36). According to the results, the HR correction decreased the diagnostic performance of the recovery phase. The HRV parameters calculated from 1 min segments of exercise test ECG were not as capable as traditional ST-segment analysis. In conclusion, the HRV analysis from exercise or recovery phase seems to be inadequate in the detection of CAD. [ABSTRACT FROM AUTHOR]

Published

2007