Complexity analyses show two distinct types of nonlinear dynamics in short heart period variability recordings

Alberto Porta; Vlasta Bari; Andrea Marchi; Beatrice De Maria; Dirk Cysarz; Peter Van Leeuwen; Anielle C M Takahashi; Aparecida M. Catai; Tomaso Gnecchi-Ruscone

doi:10.3389/fphys.2015.00071

Complexity analyses show two distinct types of nonlinear dynamics in short heart period variability recordings

Alberto Porta, Vlasta Bari, Andrea Marchi, Beatrice De Maria, Dirk Cysarz, Peter Van Leeuwen, Anielle C M Takahashi, Aparecida M. Catai, Tomaso Gnecchi-Ruscone

Research output: Contribution to journal › Article › peer-review

Abstract

Two diverse complexity metrics quantifying time irreversibility and local prediction, in connection with a surrogate data approach, were utilized to detect nonlinear dynamics in short heart period (HP) variability series recorded in fetuses, as a function of the gestational period, and in healthy humans, as a function of the magnitude of the orthostatic challenge. The metrics indicated the presence of two distinct types of nonlinear HP dynamics characterized by diverse ranges of time scales. These findings stress the need to render more specific the analysis of nonlinear components of HP dynamics by accounting for different temporal scales.

Original language	English
Article number	71
Journal	Frontiers in Physiology
Volume	6
Issue number	MAR
DOIs	https://doi.org/10.3389/fphys.2015.00071
Publication status	Published - 2015

Keywords

Autonomic nervous system
Cardiovascular control
Gestational age
Head-up tilt
Heart rate variability
Local prediction
Multiscale analysis
Time irreversibility

ASJC Scopus subject areas

Physiology
Physiology (medical)

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10.3389/fphys.2015.00071

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title = "Complexity analyses show two distinct types of nonlinear dynamics in short heart period variability recordings",

abstract = "Two diverse complexity metrics quantifying time irreversibility and local prediction, in connection with a surrogate data approach, were utilized to detect nonlinear dynamics in short heart period (HP) variability series recorded in fetuses, as a function of the gestational period, and in healthy humans, as a function of the magnitude of the orthostatic challenge. The metrics indicated the presence of two distinct types of nonlinear HP dynamics characterized by diverse ranges of time scales. These findings stress the need to render more specific the analysis of nonlinear components of HP dynamics by accounting for different temporal scales.",

keywords = "Autonomic nervous system, Cardiovascular control, Gestational age, Head-up tilt, Heart rate variability, Local prediction, Multiscale analysis, Time irreversibility",

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language = "English",

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AU - Porta, Alberto

AU - Bari, Vlasta

AU - Marchi, Andrea

AU - De Maria, Beatrice

AU - Cysarz, Dirk

AU - Van Leeuwen, Peter

AU - Takahashi, Anielle C M

AU - Catai, Aparecida M.

AU - Gnecchi-Ruscone, Tomaso

PY - 2015

Y1 - 2015

N2 - Two diverse complexity metrics quantifying time irreversibility and local prediction, in connection with a surrogate data approach, were utilized to detect nonlinear dynamics in short heart period (HP) variability series recorded in fetuses, as a function of the gestational period, and in healthy humans, as a function of the magnitude of the orthostatic challenge. The metrics indicated the presence of two distinct types of nonlinear HP dynamics characterized by diverse ranges of time scales. These findings stress the need to render more specific the analysis of nonlinear components of HP dynamics by accounting for different temporal scales.

AB - Two diverse complexity metrics quantifying time irreversibility and local prediction, in connection with a surrogate data approach, were utilized to detect nonlinear dynamics in short heart period (HP) variability series recorded in fetuses, as a function of the gestational period, and in healthy humans, as a function of the magnitude of the orthostatic challenge. The metrics indicated the presence of two distinct types of nonlinear HP dynamics characterized by diverse ranges of time scales. These findings stress the need to render more specific the analysis of nonlinear components of HP dynamics by accounting for different temporal scales.

KW - Autonomic nervous system

KW - Cardiovascular control

KW - Gestational age

KW - Head-up tilt

KW - Heart rate variability

KW - Local prediction

KW - Multiscale analysis

KW - Time irreversibility

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Complexity analyses show two distinct types of nonlinear dynamics in short heart period variability recordings

Abstract

Keywords

ASJC Scopus subject areas

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