Asymmetric features of short-term blood pressure variability

Guzik, Przemysław; Piskorski, Jarosław; Krauze, Tomasz; Wykretowicz, Andrzej; Wysocki, Henryk

doi:10.1038/hr.2010.138

Cited by 24 publications

(22 citation statements)

References 35 publications

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“…33 Further, we have described another phenomenon of the asymmetry of systolic blood pressure variability in healthy people, and although short-term heart rate asymmetry was also present in the same persons there was no correlation between both phenomena. 35 Porta et al have reported that measures of heart rate asymmetry change according to the tilting angle during head-up tilting, that there is a significant difference in heart rate asymmetry expression between daily activity and night sleep, and that the expression of heart rate asymmetry develops with increasing age between the 16th and 40th weeks of gestation. 16, 36 Karamakar et al have shown that pharmacological autonomic modulation by atropine (parasympathetic blockade) or scopolamine (parasympathetic agitation) changes the expression of heart rate asymmetry; 37,38 that is, atropine reduces heart rate asymmetry, and scopolamine increases its expression.…”

Section: Discussionmentioning

confidence: 99%

Asymmetry of the Variability of Heart Rate and Conduction Time Between Atria and Ventricles

Guzik

Zuchowski

Błaszyk

et al. 2013

Circ J

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Section: Discussionmentioning

confidence: 99%

Asymmetry of the Variability of Heart Rate and Conduction Time Between Atria and Ventricles

Guzik

Zuchowski

Błaszyk

et al. 2013

Circ J

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“…Both definitions have been used with popular HRA indices namely Guzki's Index (GI), Porta's Index (PI) and Ehlers' Index (EI). HRA analysis has been reported to analyse asymmetric properties of short and long-term HRV [40,42], altered parasympathetic nervous system activity [43], severity of apnea [44], blood pressure variability [45] and cardiovascular dynamics [46]. There is no study done to look at HRA in fetal heart rates.…”

Section: Introductionmentioning

confidence: 98%

Analysis of fetal heart rate asymmetry before and after 35 weeks of gestation

Karmakar

Kimura

Palaniswami

et al. 2015

Biomedical Signal Processing and Control

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a b s t r a c tIn this study, we have investigated the evidence of fetal heart rate asymmetry and how the fetal heart rate asymmetry changes before and after 35 weeks of gestation. Noninvasive fetal electrocardiogram (fECG) signals from 45 pregnant women at the gestational age from16 to 41 weeks with normal single pregnancies were analysed. A nonlinear parameter called heart rate asymmetry (HRA) index that measures time asymmetry of RR interval time-series signal was used to understand the changes of HRA in early and late fetus groups. Results indicate that fetal HRA measured by Porta's Index (PI) consistently increases after 35 weeks gestation compared to foetus before 32 weeks of gestation. It might be due to significant changes of sympatho-vagal balance towards delivery with more sympathetic surge. On the other hand, Guzik's Index (GI) showed a mixed effect i.e., increases at lower lags and decreases at higher lags. Finally, fHRA could potentially help identify normal and the pathological autonomic nervous system development.

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“…Moreover, it has been proposed that this difference could be related to the rate 17–19 , and the pattern of breathing 20 . Also by studying BPV, differences between rises and falls in systolic blood pressure have been identified 21 . Indeed, interbeat time series do not exhibit time reversal symmetry 22 — decelerations in original time series become accelerations in the series with the inverted temporal axis/time, and vice versa.…”

Section: Introductionmentioning

confidence: 99%

Multistructure index characterization of heart rate and systolic blood pressure reveals precursory signs of syncope

Makowiec

Graff

Struzik

2017

Sci Rep

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Recurrent syncope — abrupt loss of consciousness — can have a serious impact on patients’ quality of life, comparable with chronic illnesses. Vasovagal syncope (VVS) is a specific reflex syncope, in which an inappropriate reaction of the autonomic nervous system (ANS) plays a key role in the pathophysiology. In syncope diagnosis, an ideal diagnostic method should positively identify vasovagal sensitive patients, without the need to perform a specialised head-up tilt table (HUTT) test. We apply a novel methodology of multistructure index (MI) statistics for seamlessly evaluating the size spectrum of the asymmetry properties of magnitudes of neural reflexes responsible for maintaining the homeostatic dynamics of autonomic control. Simultaneous evaluation using the MI of the effects on heart rate and blood pressure involved in achieving homeostasis of contrasting properties of the dynamics of slow and fast neural regulation reveals a clear distinction between vasovagal patients and healthy subjects, who are/are not susceptible to spontaneous fainting. Remarkably, a healthy cardiovascular response to the HUTT test is indeed evident prior to the test, making the MI a robust novel indicator, clearly distinguishing the cardiovascular autonomic regulation of healthy people from that of vasovagal patients without the need to perform an actual HUTT test.

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Asymmetric features of short-term blood pressure variability

Cited by 24 publications

References 35 publications

Asymmetry of the Variability of Heart Rate and Conduction Time Between Atria and Ventricles

Asymmetry of the Variability of Heart Rate and Conduction Time Between Atria and Ventricles

Analysis of fetal heart rate asymmetry before and after 35 weeks of gestation

Multistructure index characterization of heart rate and systolic blood pressure reveals precursory signs of syncope

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