H.J. Kleiner scite author profile

In the modern industrialized countries every year several hundred thousands of people die due to sudden cardiac death. The individual risk for this sudden cardiac death cannot be defined precisely by common available, noninvasive diagnostic tools like Holter monitoring, highly amplified ECG and traditional linear analysis of heart rate variability (HRV). Therefore, we apply some rather unconventional methods of nonlinear dynamics to analyze the HRV. Especially, some complexity measures that are based on symbolic dynamics as well as a new measure, the renormalized entropy, detect some abnormalities in the HRV of several patients who have been classified in the low risk group by traditional methods. A combination of these complexity measures with the parameters in the frequency domain seems to be a promising way to get a more precise definition of the individual risk. These findings have to be validated by a representative number of patients. (c) 1995 American Institute of Physics.

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The application of methods of non-linear dynamics for the improved and predictive recognition of patients threatened by sudden cardiac death

Voss

Kurths²,

Kleiner

et al. 1996

Cardiovascular Research

329

260

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The methods of NLD describe complex rhythm fluctuations and separate structures of non-linear behavior in the heart rate time series more successfully than classical methods of time and frequency domains. This leads to an improved discrimination between a normal (healthy persons) and an abnormal (high risk patients) type of heart beat generation. Some patients with an unknown risk exhibit similar patterns to high risk patients and this suggests a hidden high risk. The methods of symbolic dynamics and renormalized entropy were particularly useful measures for classifying the dynamics of HRV.

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Improved analysis of heart rate variability by methods of nonlinear dynamics

Voss¹,

Kurths

Kleiner³

et al. 1995

Journal of Electrocardiology

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High resolution ECG, heart rate variability and nonlinear dynamics: tools for high risk stratification

Voss

Dietz

Fiehring

et al.

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Renormalised entropy: a new method of non-linear dynamics for the analysis of heart rate variability

Wessel

Voss

Kurths³

et al.

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H.J. Kleiner

Quantitative analysis of heart rate variability

The application of methods of non-linear dynamics for the improved and predictive recognition of patients threatened by sudden cardiac death

Improved analysis of heart rate variability by methods of nonlinear dynamics

High resolution ECG, heart rate variability and nonlinear dynamics: tools for high risk stratification

Renormalised entropy: a new method of non-linear dynamics for the analysis of heart rate variability

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