Phase synchronization indices of the HF-components (mean ± SD) of participants and statistical results.

Cross-correlation analysis of cardiovascular coupling.

Alessandro Silvani (130232)
Chiara Berteotti (130240)
Stefano Bastianini (130236)
Gary Cohen (581076)
Viviana Lo Martire (130230)
Roberta Mazza (525426)
Uberto Pagotto (463049)
Carmelo Quarta (525427)
Giovanna Zoccoli (130244)

June 2014

Panels A–C show cross-correlation functions (CCF) between low-frequency (<0.8 Hz) spontaneous flu...

Phase relationships between two or more interacting processes from one-dimensional time series. II. Application to heart-rate-variability data.

Janson, N. B.
Balanov, A. G.
Anishchenko, V. S.
McClintock, Peter V. E.

February 2002

The recently proposed approach to detect synchronization from univariate data is applied to heart-ra...

Investigation of the interactions between breathing, beat by beat changes in RR intervals, and beat by beat changes in systolic pressure levels

Bowers, Emma Jane

January 2008

Blood pressure is constantly changing due to internal and external influences. The body counteracts ...

Phase synchronization indices of the LF-components (mean ± SD) of participants and statistical results.

Manfred Georg Moertl (399928)
Helmut Karl Lackner (399929)
Ilona Papousek (320667)
Andreas Roessler (312887)
Helmut Hinghofer-Szalkay (312891)
Uwe Lang (399930)
Vassiliki Kolovetsiou-Kreiner (399931)
Dietmar Schlembach (399932)

April 2013

LF = low frequency; γ = synchronization index; RRI = R-R interval; SBP = systolic blood pressure;...

Time course of the phase synchronization index γ of R-R interval and respiration(HF-components; mean ± SD) throughout gestation: Black bars (mean ± SD) depict the values of the variables in rest, grey bars (mean ± SD) show the post stress (deep breathing) condition. (γ = synchronization index; RRI = R-R interval; RESP = respiration; HF = high frequency).

Manfred Georg Moertl (399928)
Helmut Karl Lackner (399929)
Ilona Papousek (320667)
Andreas Roessler (312887)
Helmut Hinghofer-Szalkay (312891)
Uwe Lang (399930)
Vassiliki Kolovetsiou-Kreiner (399931)
Dietmar Schlembach (399932)

April 2013

*denotes a significant difference (p<.05) between rest and post DB in case of a significan...

Heart rate and heart rate variability variables (mean ± SD) of participants and statistical results.

Manfred Georg Moertl (399928)
Helmut Karl Lackner (399929)
Ilona Papousek (320667)
Andreas Roessler (312887)
Helmut Hinghofer-Szalkay (312891)
Uwe Lang (399930)
Vassiliki Kolovetsiou-Kreiner (399931)
Dietmar Schlembach (399932)

April 2013

HR = heart rate; SDNN = standard deviation of normal-to-normal beat; rMSSD = root mean squared su...

Effect of respiratory rate on the relationships between RR interval and systolic blood pressure fluctuations: a frequency-dependent phenomenon

Maria Vittoria Pitzalis A
Francesco Massari B
Andrea Passantino B

January 1997

Objective: The aims of this study were to determine the relationships between oscillations in systol...

LF/HF ratio (ln(LF/HR)RRI; mean ± SD) throughout gestation: Black bars depict the values of the variables in rest, the grey bars show the post stress (deep breathing) condition (RRI = R-R interval; LF = low frequency; HF = high frequency; ln = natural logarithmic transformation).

Manfred Georg Moertl (399928)
Helmut Karl Lackner (399929)
Ilona Papousek (320667)
Andreas Roessler (312887)
Helmut Hinghofer-Szalkay (312891)
Uwe Lang (399930)
Vassiliki Kolovetsiou-Kreiner (399931)
Dietmar Schlembach (399932)

April 2013

*denotes a significant difference (p<.05) between rest and post DB in case of a significan...

Cross-correlation functions between spontaneous fluctuations of heart period and systolic blood pressure at different ambient temperatures.

Viviana Lo Martire (130230)
Alessandro Silvani (130232)
Stefano Bastianini (130236)
Chiara Berteotti (130240)
Giovanna Zoccoli (130244)

October 2012

Panels A–C show cross-correlation functions (CCF) between low-frequency (<0.8 Hz) spontaneous flu...

Basic cardiovascular variability signals: Mutual directed interactions explored in the information domain

Javorka, Michal
Krohova, Jana
Czippelova, Barbora
Turianikova, Zuzana
Lazarova, Zuzana
Javorka, Kamil
Faes, Luca

January 2017

The study of short-term cardiovascular interactions is classically performed through the bivariate a...

Basic Cardiovascular Variability Signals: Mutual Directed Interactions Explored in the Information Domain

Javorka, M
Krohova, J
Czippelova, B
Turianikova, Z
Lazarova, Z
Tonhajzerova, I
Faes, L

January 2017

The study of short-term cardiovascular interactions is classically performed through the bivariate a...

Exploring directionality in spontaneous heart period and systolic pressure variability interactions in humans: Implications in the evaluation of baroreflex gain

Nollo, G.
Faes, L.
Porta, A.
Antolini, R.
Ravelli, F.

January 2005

Although in physiological conditions RR interval and systolic arterial pressure (SAP) are likely to ...

Exploring causal interactions between blood pressure and RR interval at the respiratory frequency

Cucino, R
Faes, Luca
Nollo, Giandomenico

January 2006

The mechanisms underlying the relationship between RR interval and systolic arterial pressure (SAP) ...

Power spectral analysis of heart rate variability in the two groups of subjects

Paola Nicolini (559971)
Michele M. Ciulla (559972)
Gabriella Malfatto (559973)
Carlo Abbate (559974)
Daniela Mari (312584)
Paolo D. Rossi (559975)
Emanuela Pettenuzzo (559976)
Fabio Magrini (16800)
Dario Consonni (89283)
Federico Lombardi (559977)

May 2014

HRV indices, expressed as mean (SD), in baseline conditions and during and in response to (Δ) pro...

Exploring directionality in spontaneous heart period and systolic pressure variability interactions in humans: implications in the evaluation of baroreflex gain

Nollo, Giandomenico
Faes, Luca
Porta, Alberto
Antolini, Renzo
Ravelli, Flavia

January 2005

Although in physiological conditions RR interval and systolic arterial pressure (SAP) are likely to ...

Cross-correlation analysis of cardiovascular coupling.

Alessandro Silvani (130232)
Chiara Berteotti (130240)
Stefano Bastianini (130236)
Gary Cohen (581076)
Viviana Lo Martire (130230)
Roberta Mazza (525426)
Uberto Pagotto (463049)
Carmelo Quarta (525427)
Giovanna Zoccoli (130244)

June 2014

Panels A–C show cross-correlation functions (CCF) between low-frequency (<0.8 Hz) spontaneous flu...

Phase relationships between two or more interacting processes from one-dimensional time series. II. Application to heart-rate-variability data.

Janson, N. B.
Balanov, A. G.
Anishchenko, V. S.
McClintock, Peter V. E.

February 2002

The recently proposed approach to detect synchronization from univariate data is applied to heart-ra...

Investigation of the interactions between breathing, beat by beat changes in RR intervals, and beat by beat changes in systolic pressure levels

Bowers, Emma Jane

January 2008

Blood pressure is constantly changing due to internal and external influences. The body counteracts ...

Phase synchronization indices of the LF-components (mean ± SD) of participants and statistical results.

Manfred Georg Moertl (399928)
Helmut Karl Lackner (399929)
Ilona Papousek (320667)
Andreas Roessler (312887)
Helmut Hinghofer-Szalkay (312891)
Uwe Lang (399930)
Vassiliki Kolovetsiou-Kreiner (399931)
Dietmar Schlembach (399932)

April 2013

LF = low frequency; γ = synchronization index; RRI = R-R interval; SBP = systolic blood pressure;...

Time course of the phase synchronization index γ of R-R interval and respiration(HF-components; mean ± SD) throughout gestation: Black bars (mean ± SD) depict the values of the variables in rest, grey bars (mean ± SD) show the post stress (deep breathing) condition. (γ = synchronization index; RRI = R-R interval; RESP = respiration; HF = high frequency).

Manfred Georg Moertl (399928)
Helmut Karl Lackner (399929)
Ilona Papousek (320667)
Andreas Roessler (312887)
Helmut Hinghofer-Szalkay (312891)
Uwe Lang (399930)
Vassiliki Kolovetsiou-Kreiner (399931)
Dietmar Schlembach (399932)

April 2013

*denotes a significant difference (p<.05) between rest and post DB in case of a significan...

Heart rate and heart rate variability variables (mean ± SD) of participants and statistical results.

Manfred Georg Moertl (399928)
Helmut Karl Lackner (399929)
Ilona Papousek (320667)
Andreas Roessler (312887)
Helmut Hinghofer-Szalkay (312891)
Uwe Lang (399930)
Vassiliki Kolovetsiou-Kreiner (399931)
Dietmar Schlembach (399932)

April 2013

HR = heart rate; SDNN = standard deviation of normal-to-normal beat; rMSSD = root mean squared su...

Effect of respiratory rate on the relationships between RR interval and systolic blood pressure fluctuations: a frequency-dependent phenomenon

Maria Vittoria Pitzalis A
Francesco Massari B
Andrea Passantino B

January 1997

Objective: The aims of this study were to determine the relationships between oscillations in systol...

LF/HF ratio (ln(LF/HR)RRI; mean ± SD) throughout gestation: Black bars depict the values of the variables in rest, the grey bars show the post stress (deep breathing) condition (RRI = R-R interval; LF = low frequency; HF = high frequency; ln = natural logarithmic transformation).

Manfred Georg Moertl (399928)
Helmut Karl Lackner (399929)
Ilona Papousek (320667)
Andreas Roessler (312887)
Helmut Hinghofer-Szalkay (312891)
Uwe Lang (399930)
Vassiliki Kolovetsiou-Kreiner (399931)
Dietmar Schlembach (399932)

April 2013

*denotes a significant difference (p<.05) between rest and post DB in case of a significan...

Cross-correlation functions between spontaneous fluctuations of heart period and systolic blood pressure at different ambient temperatures.

Viviana Lo Martire (130230)
Alessandro Silvani (130232)
Stefano Bastianini (130236)
Chiara Berteotti (130240)
Giovanna Zoccoli (130244)

October 2012

Panels A–C show cross-correlation functions (CCF) between low-frequency (<0.8 Hz) spontaneous flu...

Basic cardiovascular variability signals: Mutual directed interactions explored in the information domain

Javorka, Michal
Krohova, Jana
Czippelova, Barbora
Turianikova, Zuzana
Lazarova, Zuzana
Javorka, Kamil
Faes, Luca

January 2017

The study of short-term cardiovascular interactions is classically performed through the bivariate a...

Basic Cardiovascular Variability Signals: Mutual Directed Interactions Explored in the Information Domain

Javorka, M
Krohova, J
Czippelova, B
Turianikova, Z
Lazarova, Z
Tonhajzerova, I
Faes, L

January 2017

The study of short-term cardiovascular interactions is classically performed through the bivariate a...

Exploring directionality in spontaneous heart period and systolic pressure variability interactions in humans: Implications in the evaluation of baroreflex gain

Nollo, G.
Faes, L.
Porta, A.
Antolini, R.
Ravelli, F.

January 2005

Although in physiological conditions RR interval and systolic arterial pressure (SAP) are likely to ...

Exploring causal interactions between blood pressure and RR interval at the respiratory frequency

Cucino, R
Faes, Luca
Nollo, Giandomenico

January 2006

The mechanisms underlying the relationship between RR interval and systolic arterial pressure (SAP) ...

Power spectral analysis of heart rate variability in the two groups of subjects

Paola Nicolini (559971)
Michele M. Ciulla (559972)
Gabriella Malfatto (559973)
Carlo Abbate (559974)
Daniela Mari (312584)
Paolo D. Rossi (559975)
Emanuela Pettenuzzo (559976)
Fabio Magrini (16800)
Dario Consonni (89283)
Federico Lombardi (559977)

May 2014

HRV indices, expressed as mean (SD), in baseline conditions and during and in response to (Δ) pro...

Exploring directionality in spontaneous heart period and systolic pressure variability interactions in humans: implications in the evaluation of baroreflex gain

Nollo, Giandomenico
Faes, Luca
Porta, Alberto
Antolini, Renzo
Ravelli, Flavia

January 2005

Although in physiological conditions RR interval and systolic arterial pressure (SAP) are likely to ...

Cross-correlation analysis of cardiovascular coupling.

Alessandro Silvani (130232)
Chiara Berteotti (130240)
Stefano Bastianini (130236)
Gary Cohen (581076)
Viviana Lo Martire (130230)
Roberta Mazza (525426)
Uberto Pagotto (463049)
Carmelo Quarta (525427)
Giovanna Zoccoli (130244)

June 2014

Panels A–C show cross-correlation functions (CCF) between low-frequency (<0.8 Hz) spontaneous flu...

Phase relationships between two or more interacting processes from one-dimensional time series. II. Application to heart-rate-variability data.

Janson, N. B.
Balanov, A. G.
Anishchenko, V. S.
McClintock, Peter V. E.

February 2002

The recently proposed approach to detect synchronization from univariate data is applied to heart-ra...

Investigation of the interactions between breathing, beat by beat changes in RR intervals, and beat by beat changes in systolic pressure levels

Bowers, Emma Jane

January 2008

Blood pressure is constantly changing due to internal and external influences. The body counteracts ...

Phase synchronization indices of the <i>HF-components</i> (mean ± SD) of participants and statistical results.

Abstract

Extracted data

Phase synchronization indices of the <i>HF-components</i> (mean ± SD) of participants and statistical results.

Abstract

Extracted data

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