Literature DB >> 12942331

Self-affine fractal variability of human heartbeat interval dynamics in health and disease.

M Meyer1, O Stiedl.   

Abstract

The complexity of the cardiac rhythm is demonstrated to exhibit self-affine multifractal variability. The dynamics of heartbeat interval time series was analyzed by application of the multifractal formalism based on the Cramèr theory of large deviations. The continuous multifractal large deviation spectrum uncovers the nonlinear fractal properties in the dynamics of heart rate and presents a useful diagnostic framework for discrimination and classification of patients with cardiac disease, e.g., congestive heart failure. The characteristic multifractal pattern in heart transplant recipients or chronic heart disease highlights the importance of neuroautonomic control mechanisms regulating the fractal dynamics of the cardiac rhythm.

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Year:  2003        PMID: 12942331     DOI: 10.1007/s00421-003-0915-2

Source DB:  PubMed          Journal:  Eur J Appl Physiol        ISSN: 1439-6319            Impact factor:   3.078


  18 in total

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Authors:  M G Rosenblum; C K Peng; J E Mietus; S Havlin; H E Stanley; A L Goldberger
Journal:  Physica A       Date:  1998       Impact factor: 3.263

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Authors:  L A Nunes Amaral; A L Goldberger; H E Stanley
Journal:  Europhys Lett       Date:  1998-08-15       Impact factor: 1.947

3.  Scale-independent measures and pathologic cardiac dynamics.

Authors:  L A Nunes Amaral; A L Goldberger; H E Stanley
Journal:  Phys Rev Lett       Date:  1998-09-14       Impact factor: 9.161

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Authors:  J. H. Lefebvre; D. A. Goodings; M. V. Kamath; E. L. Fallen
Journal:  Chaos       Date:  1993-04       Impact factor: 3.642

5.  Scaling behaviour of heartbeat intervals obtained by wavelet-based time-series analysis.

Authors:  P C Ivanov; M G Rosenblum; C K Peng; J Mietus; S Havlin; H E Stanley; A L Goldberger
Journal:  Nature       Date:  1996-09-26       Impact factor: 49.962

6.  Fractal measures and their singularities: The characterization of strange sets.

Authors: 
Journal:  Phys Rev A Gen Phys       Date:  1986-02

7.  Operation Everest II: an indication of deterministic chaos in human heart rate variability at simulated extreme altitude.

Authors:  Y Yamamoto; R L Hughson; J R Sutton; C S Houston; A Cymerman; E L Fallen; M V Kamath
Journal:  Biol Cybern       Date:  1993       Impact factor: 2.086

8.  Fractal dynamics of heart beat interval fluctuations in corticotropin-releasing factor receptor subtype 2 deficient mice.

Authors:  Oliver Stiedl; Michael Meyer
Journal:  Integr Physiol Behav Sci       Date:  2002 Oct-Dec

9.  Fractal dynamics in circadian cardiac time series of corticotropin-releasing factor receptor subtype-2 deficient mice.

Authors:  O Stiedl; M Meyer
Journal:  J Math Biol       Date:  2003-03-19       Impact factor: 2.259

10.  Nonlinear control of heart rate variability in human infants.

Authors:  G Sugihara; W Allan; D Sobel; K D Allan
Journal:  Proc Natl Acad Sci U S A       Date:  1996-03-19       Impact factor: 11.205
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  17 in total

1.  Does heart rate variability reflect the systemic inflammatory response in a fetal sheep model of lipopolysaccharide-induced sepsis?

Authors:  Lucien D Durosier; Christophe L Herry; Marina Cortes; Mingju Cao; Patrick Burns; André Desrochers; Gilles Fecteau; Andrew J E Seely; Martin G Frasch
Journal:  Physiol Meas       Date:  2015-08-19       Impact factor: 2.833

2.  Cross-correlation of instantaneous phase increments in pressure-flow fluctuations: applications to cerebral autoregulation.

Authors:  Zhi Chen; Kun Hu; H Eugene Stanley; Vera Novak; Plamen Ch Ivanov
Journal:  Phys Rev E Stat Nonlin Soft Matter Phys       Date:  2006-03-15

3.  Fractal properties of human heart period variability: physiological and methodological implications.

Authors:  Can Ozan Tan; Michael A Cohen; Dwain L Eckberg; J Andrew Taylor
Journal:  J Physiol       Date:  2009-06-15       Impact factor: 5.182

4.  Central 5-HT1A receptor-mediated modulation of heart rate dynamics and its adjustment by conditioned and unconditioned fear in mice.

Authors:  Jiun Youn; Torben Hager; Ilga Misane; Anton W Pieneman; René F Jansen; Sven Ove Ogren; Michael Meyer; Oliver Stiedl
Journal:  Br J Pharmacol       Date:  2013-10       Impact factor: 8.739

5.  A Framework for Patient State Tracking by Classifying Multiscalar Physiologic Waveform Features.

Authors:  Benjamin Vandendriessche; Mustafa Abas; Thomas E Dick; Kenneth A Loparo; Frank J Jacono
Journal:  IEEE Trans Biomed Eng       Date:  2017-03-17       Impact factor: 4.538

6.  Comparison of wavelet transform modulus maxima and multifractal detrended fluctuation analysis of heart rate in patients with systolic dysfunction of left ventricle.

Authors:  Rafal Galaska; Danuta Makowiec; Aleksandra Dudkowska; Andrzej Koprowski; Krzysztof Chlebus; Joanna Wdowczyk-Szulc; Andrzej Rynkiewicz
Journal:  Ann Noninvasive Electrocardiol       Date:  2008-04       Impact factor: 1.468

Review 7.  Anxiety in mice and men: a comparison.

Authors:  Christa Hohoff
Journal:  J Neural Transm (Vienna)       Date:  2009-04-02       Impact factor: 3.575

8.  Fractal rigidity by enhanced sympatho-vagal antagonism in heartbeat interval dynamics elicited by central application of corticotropin-releasing factor in mice.

Authors:  M Meyer; O Stiedl
Journal:  J Math Biol       Date:  2006-03-06       Impact factor: 2.259

Review 9.  The role of the circadian system in fractal neurophysiological control.

Authors:  Benjamin R Pittman-Polletta; Frank A J L Scheer; Matthew P Butler; Steven A Shea; Kun Hu
Journal:  Biol Rev Camb Philos Soc       Date:  2013-04-10

10.  Influence of age and aerobic fitness on the multifractal characteristics of electrocardiographic RR time-series.

Authors:  Michael J Lewis; Melitta A McNarry
Journal:  Front Physiol       Date:  2013-05-13       Impact factor: 4.566
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