Search results for "paced breathing"

showing 4 items of 4 documents

Information domain approach to the investigation of cardio-vascular, cardio-pulmonary, and vasculo-pulmonary causal couplings

2011

The physiological mechanisms related to cardio-vascular (CV), cardio-pulmonary (CP), and vasculo-pulmonary (VP) regulation may be probed through multivariate time series analysis tools. This study applied an information domain approach for the evaluation of non-linear causality to the beat-to-beat variability series of heart period (t), systolic arterial pressure (s), and respiration (r) measured during tilt testing and paced breathing (PB) protocols. The approach quantifies the causal coupling from the series i to the series j (C(ij)) as the amount of information flowing from i to j. A measure of directionality is also obtained as the difference between two reciprocal causal couplings (D(i…

medicine.medical_specialtySupine positioncausalityPhysiologySpeech recognitionBaroreflexlcsh:Physiologypaced breathingconditional entropyhead-up tiltInternal medicinePhysiology (medical)medicineHeart rate variabilitybaroreflexarterial pressure variabilityrespiratory sinus arrhythmiaVagal toneRespiratory systemOriginal Researchlcsh:QP1-981business.industryheart rate variabilityCardiorespiratory fitnessBlood pressureSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaCardiologyBreathingArterial pressure variability; Baroreflex; Causality; Conditional entropy; Head-up tilt; Heart rate variability; Paced breathing; Respiratory sinus arrhythmia; Physiology; Physiology (medical)business
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Redundant and synergistic information transfer in cardiovascular and cardiorespiratory variability

2015

In the framework of information dynamics, new tools are emerging which allow one to quantify how the information provided by two source processes about a target process results from the contribution of each source and from the interaction between the sources. We present the first implementation of these tools in the assessment of short-term cardiovascular and cardiorespiratory variability, by introducing two strategies for the decomposition of the information transferred to heart period (HP) variability from systolic arterial pressure (SAP) and respiration flow (RF) variability. Several measures based on the notion of transfer entropy (TE) are defined to quantify joint, individual and redun…

AdultMaleInformation transferComputer scienceEntropyBiomedical EngineeringBlood PressureHealth Informaticscomputer.software_genreCardiovascular Physiological PhenomenaElectrocardiographyHeart RateHumansPaced breathingSimulation1707Motor NeuronsRespirationModels CardiovascularHealthy subjectsHeartCardiorespiratory fitnessHealthy VolunteersSignal ProcessingSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaSystolic arterial pressureFemaleTransfer entropyData miningcomputer
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Assessment of Cardiorespiratory Interactions During Spontaneous and Controlled Breathing: Non-linear Model-free Analysis

2022

In this work, nonlinear model-free methods for bivariate time series analysis have been applied to study cardiorespiratory interactions. Specifically, entropy-based (i.e. Transfer Entropy and Cross Entropy) and Convergent Cross Mapping asymmetric coupling measures have been computed on heart rate and breathing time series extracted from electrocardiographic (ECG) and respiratory signals acquired on 19 young healthy subjects during an experimental protocol including spontaneous and controlled breathing conditions. Results evidence a bidirectional nature of cardiorespiratory interactions, and highlight clear similarities and differences among the three considered measures.

Settore ING-INF/06 - Bioingegneria Elettronica E InformaticaHeart rate time series analysis entropy cardiorespiratory interactions paced breathing nonlinear model-free analysis2022 12th Conference of the European Study Group on Cardiovascular Oscillations (ESGCO)
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Investigating cardiac and respiratory determinants of heart rate variability in an information-theoretic framework.

2014

This study was aimed at comparing two alternative information-theoretic approaches for the combined analysis of heart rate variability (HRV) and respiration variability (RV). The approaches decompose the predictive information about HRV in two terms, quantifying respectively the information stored into HRV and that transferred to HRV from RV. Storage and transfer were assessed by the popular self entropy (SE) and transfer entropy (TE) measures, as well as by the alternative conditional SE (cSE) and cross entropy (CE) measures. The comparison was performed at a theoretical level, computing the exact values of the four measures for simulated cardiorespiratory dynamics, and on real data, estim…

AdultMalemedicine.medical_specialtyEntropyHead-Down TiltElectrocardiographyRespiratory RateHeart RateInternal medicinemedicineEntropy (information theory)Heart rate variabilityHumansArrhythmia SinusRespiratory systemVagal tonePaced breathingMathematicsCardiorespiratory fitnessHealthy VolunteersCross entropySettore ING-INF/06 - Bioingegneria Elettronica E InformaticaCardiologyMedicineTransfer entropyFemaleAlgorithmsAnnual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
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