Your search keyword '"Massimo Pagani"' showing total 241 results

1. Assessing the cardiac autonomic response to bicycle exercise in Olympic athletes with different loads of endurance training: new insights from statistical indicators based on multilevel exploratory factor analysis

Author

Nadia Solaro, Massimo Pagani, Antonio Spataro, and Daniela Lucini

Subjects

aerobic training, autonomic heatmap plots, autonomic nervous system, HRV, nonparametric statistics, repeated measures, Physiology, QP1-981

Abstract

Aim: The mechanisms governing the organism’s response to exercise are complex and difficult to study. Spectral analysis of heart rate variability (HRV) could represent a convenient methodology for studying humans’ autonomic nervous system (ANS). However, difficulties in interpreting the multitude of correlated HRV-derived indices, mainly when computed over different time segments, may represent a barrier to its usage. This preliminary investigation addressed to elite athletes proposes a novel method describing the cardiac autonomic response to exercise based on multilevel exploratory factor analysis (MEFA), which reduces the multitude of HRV-derived indices to fewer uncorrelated ANS indicators capable of accounting for their interrelationships and overcoming the above difficulties.Methods: The study involved 30 Italian Olympic athletes, divided into 15 cyclists (prevalent high-intensity endurance training) and 15 shooters (prevalent technical training with low-intensity endurance component). All athletes underwent a complete test of a dynamic protocol, constituted by a rest-stand test followed by a stepwise bicycle stress test subdivided into a single bout of progressive endurance (from aerobic to anaerobic) exercise and recovery. Then, by spectral analysis, values of 12 ANS proxies were computed at each time segment (9 epochs in all) of the complete test.Results: We obtained two global ANS indicators (amplitude and frequency), expressing the athletes’ overall autonomic response to the complete test, and three dynamic ANS indicators (amplitude, signal self-similarity, and oscillatory), describing the principal dynamics over time of the variability of RR interval (RRV). Globally, cyclists have significantly higher amplitude levels (median ± MAD: cyclists 69.9 ± 20.5; shooters 37.2 ± 19.4) and lower frequency levels (median ± MAD: cyclists 37.4 ± 14.8; shooters 78.2 ± 10.2) than shooters, i.e., a parasympathetic predominance compared to shooters. Regarding the RRV dynamics, the signal self-similarity and oscillatory indicators have the strongest sensitivity in detecting the rest-stand change; the amplitude indicator is highly effective in detecting the athletes’ autonomic changes in the exercise fraction; the amplitude and oscillatory indicators present significant differences between cyclists and shooters in specific test epochs.Conclusion: This MEFA application permits a more straightforward representation of the complexity characterizing ANS modulation during exercise, simplifying the interpretation of the HRV-derived indices and facilitating the possible real-life use of this non-invasive methodology.

Published

2023

2. Corrigendum: Carotid reservoir pressure decrease after prolonged head down tilt bed rest in young healthy subjects is associated with reduction in left ventricular ejection time and diastolic length

Author

Carlo Palombo, Michaela Kozakova, Carmela Morizzo, Lorenzo Losso, Massimo Pagani, Paolo Salvi, Kim H. Parker, and Alun D. Hughes

Subjects

head-down tilt bed rest, arterial pressure waveform, reservoir pressure, excess pressure, forward pressure wave, backward pressure wave, Physiology, QP1-981

Published

2022

3. Improvement of Sympathovagal Balance by Regular Exercise May Counteract the Ageing Process. A Study by the Analysis of QT Variability

Author

Beatrice De Maria, Daniela Lucini, Mariana de Oliveira Gois, Aparecida Maria Catai, Francesca Perego, Mara Malacarne, Massimo Pagani, Alberto Porta, and Laura Adelaide Dalla Vecchia

Subjects

physical exercise, heart rate variability, QT interval variability, complexity, autonomic nervous system, athletes, Physiology, QP1-981

Abstract

QT interval (QT) variability analysis provides pathophysiological and prognostic information utilized in cardiac and non-cardiac diseases, complementary to those obtained from the analysis of heart period (HP) variability. An increased QT variability has been associated to a higher risk for cardiac events and poorest prognosis. Autonomic cardiovascular adaptation to internal and external challenges, such those occurring in athletes exposed to high levels of physical stress and in ageing could also be deepen by analyzing QT variability, searching for early prognostic signatures. The aim of the study was to analyze the QT variability and cardiac control complexity in a group of middle-aged half-marathon runners at baseline (B) and at a 10-year follow-up (FU). We found that the overall QT variability decreased at FU, despite the inescapable increase in age (52.3 ± 8.0 years at FU). This change was accompanied by an increase of the HP variability complexity without changes of the QT variability complexity. Of notice, over the years, the group of athletes maintained their regular physical activity by switching to a moderate intensity rather than strenuous. In conclusion, regular and moderate exercise over the years was beneficial for this group of athletes, as reflected by the decreased overall QT variability that is known to be associated to lower cardiovascular risk. The concomitant enhanced cardiac control complexity also suggests a trend opposite to what usually occurs with ageing, resulting in a more flexible cardiac control, typical of younger people.

Published

2022

4. Carotid Reservoir Pressure Decrease After Prolonged Head Down Tilt Bed Rest in Young Healthy Subjects Is Associated With Reduction in Left Ventricular Ejection Time and Diastolic Length

Author

Carlo Palombo, Michaela Kozakova, Carmela Morizzo, Lorenzo Losso, Massimo Pagani, Paolo Salvi, Kim H. Parker, and Alun D. Hughes

Subjects

head-down tilt bed rest, arterial pressure waveform, reservoir pressure, excess pressure, forward pressure wave, backward pressure wave, Physiology, QP1-981

Abstract

BackgroundThe arterial pressure waveform reflects the interaction between the heart and the arterial system and carries potentially relevant information about circulatory status. According to the commonly accepted ‘wave transmission model’, the net BP waveform results from the super-position of discrete forward and backward pressure waves, with the forward wave in systole determined mainly by the left ventricular (LV) ejection function and the backward by the wave reflection from the periphery, the timing and amplitude of which depend on arterial stiffness, the wave propagation speed and the extent of downstream admittance mismatching. However, this approach obscures the ‘Windkessel function’ of the elastic arteries. Recently, a ‘reservoir-excess pressure’ model has been proposed, which interprets the arterial BP waveform as a composite of a volume-related ‘reservoir’ pressure and a wave-related ‘excess’ pressure.MethodsIn this study we applied the reservoir-excess pressure approach to the analysis of carotid arterial pressure waveforms (applanation tonometry) in 10 young healthy volunteers before and after a 5-week head down tilt bed rest which induced a significant reduction in stroke volume (SV), end-diastolic LV volume and LV longitudinal function without significant changes in central blood pressure, cardiac output, total peripheral resistance and aortic stiffness. Forward and backward pressure components were also determined by wave separation analysis.ResultsCompared to the baseline state, bed rest induced a significant reduction in LV ejection time (LVET), diastolic time (DT), backward pressure amplitude (bP) and pressure reservoir integral (INTPR). INTPR correlated directly with LVET, DT, time to the peak of backward wave (bT) and stroke volume, while excess pressure integral (INTXSP) correlated directly with central pressure. Furthermore, Δ.INTPR correlated directly with Δ.LVET, and Δ.DT, and in multivariate analysis INTPR was independently related to LVET and DT and INTXSP to central systolic BP.ConclusionThis is an hypothesis generating paper which adds support to the idea that the reservoir-wave hypothesis applied to non-invasively obtained carotid pressure waveforms is of potential clinical usefulness.

Published

2022

5. Effects of Spinal Cord Injury Site on Cardiac Autonomic Regulation: Insight from Analysis of Cardiovascular Beat by Beat Variability during Sleep and Orthostatic Challenge

Author

Pietro Guaraldi, Mara Malacarne, Giorgio Barletta, Giuseppe De Scisciolo, Massimo Pagani, Pietro Cortelli, and Daniela Lucini

Subjects

autonomic nervous system, sleep stage, spectral analysis, sympathetic parasympathetic feedback, spinal cord injury site, Diseases of the musculoskeletal system, RC925-935

Abstract

Purpose: The goal of this study on Spinal Cord Injury (SCI) patients with cervical or thoracic lesion was to assess whether disturbances of ANS control, according to location, might differently affect vagal and sympatho-vagal markers during sleep and orthostatic challenge. We analyzed with linear and nonlinear techniques beat-by-beat RR and arterial pressure (and respiration) variability signals, extracted from a polysomnographic study and a rest–tilt test. We considered spontaneous or induced sympathetic excitation, as obtained shifting from non-REM to REM sleep or from rest to passive tilt. We obtained evidence of ANS cardiac (dys)regulation, of greater importance for gradually proximal location (i.e., cervical) SCI, compatible with a progressive loss of modulatory role of sympathetic afferents to the spinal cord. Furthermore, in accordance with the dual, vagal and sympathetic bidirectional innervation, the results suggest that vagally mediated negative feedback baroreflexes were substantially maintained in all cases. Conversely, the LF and HF balance (expressed specifically by normalized units) appeared to be negatively affected by SCI, particularly in the case of cervical lesion (group p = 0.006, interaction p = 0.011). Multivariate analysis of cardiovascular variability may be a convenient technique to assess autonomic responsiveness and alteration of functionality in patients with SCI addressing selectively vagal or sympathetic alterations and injury location. This contention requires confirmatory studies with a larger population.

Published

2022

6. Ten-year follow-up of cardiac function and neural regulation in a group of amateur half-marathon runners

Author

Beatrice De Maria, Mariana de Oliveira Gois, Aparecida Maria Catai, Christian Marra, Daniela Lucini, Alberto Porta, Massimo Pagani, and Laura Adelaide Dalla Vecchia

Subjects

Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Objective In the last years, a debate exists about type, intensity and frequency of physical exercise that is really indicated to protect healthy subjects from cardiovascular disease. Regular physical training has been associated with an improved cardiovascular risk profile, but it has also been demonstrated that strenuous and uncontrolled physical exercise could be dangerous, in terms of increased cardiovascular morbidity and mortality. In the present study, we evaluated a group of 35 amateur half-marathon runners, who were likewise studied 10 years before (B). The results of B suggested that an increased cardiac sympathetic modulation could potentially represent a negative prognostic factor. The aim of this follow-up was to assess the medium–long-term effects of moderate to vigorous physical training on the cardiovascular neural control, cardiac function and occurrence of cardiovascular diseases.Methods Each enrolled subject underwent: (1) an interview and physical examination to ascertain the presence of cardiovascular disease; (2) standing test to evaluate the cardiovascular neural control by means of heart rate variability (HRV), arterial blood pressure (AP) variability and baroreflex sensitivity (BRS); (3) transthoracic echocardiography to evaluate cardiac function.Results At 10-year follow-up (FU), in this group of middle-aged athletes the occurrence of cardiovascular diseases was low, not unlike that of the overall population. The results of HRV analysis showed a decreased sympathetic and increased vagal modulation directed to the heart, compared with B. In addition, HRV, AP variability and BRS indices showed a physiological response to active standing. Finally, athletes had normal echocardiographic measures.Conclusion We conclude that in our group of athletes a regular moderate–vigorous physical training through the 10 years was quite beneficial as the prevalence of sympathetic cardiac modulation observed at B was not accompanied by increased cardiovascular risk, on the contrary a slight prevalence of vagal indices was observed at FU.

Published

2021

7. Altered Cardiac Autonomic Regulation in Overweight and Obese Subjects: The Role of Age-and-Gender-Adjusted Statistical Indicators of Heart Rate Variability and Cardiac Baroreflex

Author

Nadia Solaro, Massimo Pagani, and Daniela Lucini

Subjects

sympathetic-parasympathetic balance, percentile rank transformation, life style, exploratory factor analysis, cardiovascular risk, non-parametric statistical inference, Physiology, QP1-981

Abstract

In the context of functional determinants of cardiovascular risk, a simple excess in body weight, as indexed by a rise in body mass index (BMI), plays a significant, well-recognized causal role. Conversely, BMI reductions toward normal result in an improvement of risk. Obesity is associated with impaired cardiac autonomic regulation (CAR), through either vagal or sympathetic mechanisms, which could favor the tendency to foster hypertension. Here we study the changing properties of the relationship between increasing grades of BMI and CAR in a population of 756 healthy subjects (age 35.9 ± 12.41 years, 37.4% males, 21.6% overweight, and 16% obese). Evaluation of CAR is based on autoregressive spectral analysis of short-term RR interval and systolic arterial pressure variability, from which a multitude of indices, treated overall as autonomic nervous system (ANS) proxies, is derived. Inspection of the study hypothesis that elevated BMI conditions associate significantly with alterations of CAR, independently of age and gender, is carried out using a mix of statistical transformations, exploratory factor analysis, non-parametric testing procedures, and graphical tools particularly well suited to address alterations of CAR as a disturbed process. In particular, to remove the effects of the inter-individual variability, deriving from components like age, gender or ethnicity, and to reduce the number of ANS proxies, we set up six age-and-gender-adjusted CAR indicators, corresponding to four ANS latent domains (oscillatory, amplitude, pressure, and pulse), cardiac baroreflex regulation, and autonomic nervous system index (ANSI). An impairment of the CAR indicators is overall evident in the overweight group and more marked in the obesity group. Empirical evidence is strong (9/9 concordant non-parametric test results) for pressure domain, almost strong (8/9) for ANSI, medium-strong for baroreflex (6/9) and pulse (7/9), weak for oscillatory (2/9) and amplitude (1/9) domains. In addition, the distribution of the CAR indicators corresponding to pressure, pulse, baroreflex, and ANSI is skewed toward the unfavorable abscissa extremity, particularly in the obese group. The significant association of increased BMI with progressive impairments of CAR regarding specifically the pressure domain and the overall ANS performance might underscore the strong hypertensive tendency observed in obesity.

Published

2021

8. Interaction between Autonomic Regulation, Adiposity Indexes and Metabolic Profile in Children and Adolescents with Overweight and Obesity

Author

Valeria Calcaterra, Carlo Palombo, Mara Malacarne, Massimo Pagani, Giovanni Federico, Michaela Kozakova, Gianvincenzo Zuccotti, and Daniela Lucini

Subjects

pediatric obesity, autonomic regulation, adiposity index, metabolic, children, adolescents, Pediatrics, RJ1-570

Abstract

Early obesity predicts initial modifications in cardiac and vascular autonomic regulation. The aim of this study was to assess the possible interaction between non-invasive measures of autonomic cardiovascular control and peripheral endothelium regulation in children with overweight and obesity. We involved 114 young subjects (77M/37F, 12.7 ± 2.2 years) with normal weight (NW, n = 46) to overweight or obesity (OB, n = 68). Multivariate statistical techniques utilizing a collection of modern indices of autonomic regulation, adiposity indexes and metabolic profile were employed. Resting values show substantial equivalence of data. Conversely, blood pressure variance is greater in NW/OB groups. The correlation matrix between major autonomic and metabolic/hemodynamic variables shows a clustered significant correlation between homogeneous indices. A significant correlation between metabolic indices and endothelial and autonomic control, mostly in its vascular end, was recorded. Particularly, the alpha index is significantly correlated with triglycerides (r = −0.261) and endothelial indices (RHI, r = 0.276). Children with obesity show a link between indices of autonomic and endothelial function, fat distribution and metabolic profile. The optimization of autonomic control, for instance by exercise/nutrition interventions, could potentially prevent/delay the occurrence of structural vascular damage leading to reduced cardiovascular health.

Published

2021

9. Cardiac Baroreflex, HRV, and Statistics: An Interdisciplinary Approach in Hypertension

Author

Nadia Solaro, Mara Malacarne, Massimo Pagani, and Daniela Lucini

Subjects

neural control, non-parametric bootstrap, non-parametric inference, patterned alternatives, physiopathology, sympathetic activity, Physiology, QP1-981

Abstract

Interests about the fine underpinnings of cardiovascular beat-by-beat variability have historical roots. Over the last decades, various aspects of the relationships between arterial pressure and heart period were taken as a proxy of the baroreflex in physiology and medicine, stimulating the interest of investigators in several interconnected scientific fields, in particular, bioengineering, neurophysiology, and clinical medicine. Studies of the overall system facilitated the emergence of a simplified negative (vagal) feedback model of the baroreflex and overshadowed the simultaneous interaction with excitatory, sympathetic positive-feedback mechanisms that would, however, better suit the model of a “paired antagonistic (parasympathetic/sympathetic) innervation of the internal organs.” From the bioengineering side, the simplicity of obtaining the series of subsequent RR intervals stimulated the analysis of beat-by-beat variations, providing a multitude of heart rate variability (HRV) indices considered as proxies of the underlying sympatho-vagal balance, and participating to the management of several important clinical conditions, such as hypertension. In this context, advanced statistical methods, used in an integrated manner and controlling for age and gender biases, might help shed new light on the relationship between cardiac baroreflex, assessed by the frequency domain index α, and the HRV indices with the varying of systolic arterial pressure (SAP) levels. The focus is also on a novel unitary Autonomic Nervous System Index (ANSI) built as a synthesis of HRV considering its three most informative proxies [RR, RR variance, and the rest-stand difference in the normalized power of low-frequency (LF) variability component]. Data from a relatively large set of healthy subjects (n = 1154) with a broad range of SAP [from normal (nNt = 778) to elevated (nHt = 232)] show that, e.g., α and ANSI significantly correlate overall (r = 0.523, p < 0.001), and that this correlation is lower in hypertensives (r = 0.444, p < 0.001) and higher in pre-hypertensives (r = 0.618, p < 0.001) than in normotensives (r = 0.5, p < 0.001). That suggests the existence of curvilinear “umbrella” patterns that might better describe the effects of the SAP states on the relationships between baroreflex and HRV. By a mix of robust, non-parametric and resampling statistical techniques, we give empirical support to this study hypothesis and show that the pre-hypertensive group results at the apex/bottom in most of the studied trends.

Published

2019

10. Peripheral Resistance Baroreflex During Incremental Bicycle Ergometer Exercise: Characterization and Correlation With Cardiac Baroreflex

Author

Alberto Porta, Vlasta Bari, Beatrice De Maria, Beatrice Cairo, Emanuele Vaini, Mara Malacarne, Massimo Pagani, and Daniela Lucini

Subjects

heart rate variability, laser Doppler skin blood flow, peripheral resistances, vasomotion, autonomic nervous system, cardiovascular control, Physiology, QP1-981

Abstract

The arm of the baroreflex (BR) controlling peripheral resistances (PR), labeled as BR of PR (prBR), was characterized through an extension of the cardiac BR (cBR) sequence analysis. The method exploits recordings of skin blood flow (SBF) from the palm of the non-dominant hand via a laser Doppler flowmeter and of arterial pressure (AP) from the middle finger of the same hand via a plethysmographic device. PR was estimated beat-by-beat as the ratio of mean AP to mean SBF computed over the same heart period (HP). Peripheral resistances-diastolic arterial pressure (PR-DAP) sequences featuring simultaneous increases of PR and decreases of diastolic AP (DAP) or vice versa were identified and the slope of the regression line in the (DAP, PR) plane was taken as an estimate of prBR sensitivity (BRSprBR). The percentage of prBR sequences (SEQ%prBR) was taken as a measure of prBR involvement and the prBR effectiveness index (EIprBR) was computed as the fraction of DAP sequences capable to drive antiparallel PR variations. Analogous markers were computed over cBR from HP and systolic AP (SAP) variability [i.e., cBR sensitivity (BRScBR), percentage of cBR sequences (SEQ%cBR), and effectiveness index of the cBR (EIcBR)]. prBR and cBR were typified during incremental light-to-moderate bicycle ergometer exercise at 10, 20, and 30% of the maximum effort in 16 healthy subjects (aged from 22 to 58 years, six males). We found that: (i) BRScBR decreased gradually with the challenge, while BRSprBR declined only at the heaviest workload; (ii) SEQ%cBR decreased solely at the lightest workload, while the decline of SEQ%prBR was significant regardless of the intensity of the challenge; (iii) EIprBR and EIcBR were not affected by exercise; (iv) after pooling together all the data regardless of the experimental conditions, BRSprBR and BRScBR were uncorrelated, while SEQ%cBR and SEQ%prBR as well as EIcBR and EIprBR, were significantly and positively correlated; (v) when the correlation between SEQ%cBR and SEQ%prBR and between EIcBR and EIprBR was assessed separately in each experimental condition, it was not systematically detected. This study suggests that prBR characterization provides information complementary to cBR that might be fruitfully exploited to improve patients’ risk stratification.

Published

2018

11. Autonomic Differentiation Map: A Novel Statistical Tool for Interpretation of Heart Rate Variability

Author

Daniela Lucini, Nadia Solaro, and Massimo Pagani

Subjects

autonomic nervous system, heart rate variability, spectral analysis, baroreflex, statistics, chronic conditions, Physiology, QP1-981

Abstract

In spite of the large body of evidence suggesting Heart Rate Variability (HRV) alone or combined with blood pressure variability (providing an estimate of baroreflex gain) as a useful technique to assess the autonomic regulation of the cardiovascular system, there is still an ongoing debate about methodology, interpretation, and clinical applications. In the present investigation, we hypothesize that non-parametric and multivariate exploratory statistical manipulation of HRV data could provide a novel informational tool useful to differentiate normal controls from clinical groups, such as athletes, or subjects affected by obesity, hypertension, or stress. With a data-driven protocol in 1,352 ambulant subjects, we compute HRV and baroreflex indices from short-term data series as proxies of autonomic (ANS) regulation. We apply a three-step statistical procedure, by first removing age and gender effects. Subsequently, by factor analysis, we extract four ANS latent domains that detain the large majority of information (86.94%), subdivided in oscillatory (40.84%), amplitude (18.04%), pressure (16.48%), and pulse domains (11.58%). Finally, we test the overall capacity to differentiate clinical groups vs. control. To give more practical value and improve readability, statistical results concerning individual discriminant ANS proxies and ANS differentiation profiles are displayed through peculiar graphical tools, i.e., significance diagram and ANS differentiation map, respectively. This approach, which simultaneously uses all available information about the system, shows what domains make up the difference in ANS discrimination. e.g., athletes differ from controls in all domains, but with a graded strength: maximal in the (normalized) oscillatory and in the pulse domains, slightly less in the pressure domain and minimal in the amplitude domain. The application of multiple (non-parametric and exploratory) statistical and graphical tools to ANS proxies defines differentiation profiles that could provide a better understanding of autonomic differences between clinical groups and controls. ANS differentiation map permits to rapidly and simply synthesize the possible difference between clinical groups and controls, evidencing the ANS latent domains that have at least a medium strength of discrimination, while the significance diagram permits to identify the single ANS proxies inside each ANS latent domain that resulted in significant comparisons according to statistical tests.

Published

2018

12. Transfer Function Gain Between Heart Period and QT Interval Variability Decreases at a 10-Year Follow-up in Half-Marathon Runners.

Author

Beatrice De Maria, Vlasta Bari, Beatrice Cairo, Francesca Gelpi, Daniela Lucini, Massimo Pagani, Mara Malacarne, Aparecida Maria Catai, Mariana de Oliveira Gois, Francesca Perego, Laura Adelaide Dalla Vecchia, and Alberto Porta

Published

2022

13. Quantifying Redundant/Synergistic Interactions Between Cardiorespiratory Reflexes and Cardiac Control Mechanisms During Light-to-Moderate Bicycle Exercise.

Author

Alberto Porta, Beatrice Cairo, Vlasta Bari, Emanuele Vaini, Beatrice De Maria, Mara Malacarne, Massimo Pagani, and Daniela Lucini

Published

2019

14. Assessing Synergy/Redundancy of Baroreflex and Non-Baroreflex Components of the Cardiac Control during Sleep.

Author

Beatrice Cairo, Vlasta Bari, Beatrice De Maria, Emanuele Vaini, Pietro Guaraldi, Daniela Lucini, Massimo Pagani, Federica Provini, Giovanna Calandra-Buonaura, Pietro Cortelli, and Alberto Porta

Published

2019

15. On the Relevance of Computing a Local Version of Sample Entropy in Cardiovascular Control Analysis.

Author

Alberto Porta, Vlasta Bari, Beatrice De Maria, Beatrice Cairo, Emanuele Vaini, Mara Malacarne, Massimo Pagani, and Daniela Lucini

Published

2019

16. Evaluating the association between cardiac and peripheral resistance arms of the baroreflex.

Author

Alberto Porta, Vlasta Bari, Giovanni Ranuzzi, Beatrice De Maria, Mara Malacarne, Massimo Pagani, and Daniela Lucini

Published

2017

17. Effects of an online exercise training on autonomic and metabolic control in children with obesity: A feasibility study

Author

Luca Giovanelli, Valeria Calcaterra, Giuseppina Bernardelli, Mara Malacarne, Matteo Vandoni, Savina Mannarino, Vittoria Carnevale Pellino, Cristiana Larizza, Massimo Pagani, Gianvincenzo Zuccotti, and Daniela Lucini

Subjects

General Medicine

Published

2023

18. Moderate Aerobic Exercise Reduces the Detrimental Effects of Hypoxia on Cardiac Autonomic Control in Healthy Volunteers

Author

Luca Giovanelli, Mara Malacarne, Massimo Pagani, Gianni Biolo, Igor B. Mekjavic, Giuseppina Bernardelli, and Daniela Lucini

Subjects

Medicine (miscellaneous), physical activity, physical inactivity, aerobic exercise, bedrest, hypoxia, heart rate variability, autonomic nervous system, baroreflex sensitivity, vagal activity

Abstract

Physical inactivity increases cardiometabolic risk through a variety of mechanisms, among which alterations of immunological, metabolic, and autonomic control systems may play a pivotal role. Physical inactivity is frequently associated with other factors that may further worsen prognosis. The association between physical inactivity and hypoxia is particularly interesting and characterizes several conditions—whether physiological (e.g., residing or trekking at high altitude and space flights) or pathological (e.g., chronic cardiopulmonary diseases and COVID-19). In this randomized intervention study, we investigated the combined effects of physical inactivity and hypoxia on autonomic control in eleven healthy and physically active male volunteers, both at baseline (ambulatory) conditions and, in a randomized order, hypoxic ambulatory, hypoxic bedrest, and normoxic bedrest (i.e., a simple experimental model of physical inactivity). Autoregressive spectral analysis of cardiovascular variabilities was employed to assess cardiac autonomic control. Notably, we found hypoxia to be associated with an impairment of cardiac autonomic control, especially when combined with bedrest. In particular, we observed an impairment of indices of baroreflex control, a reduction in the marker of prevalent vagal control to the SA node, and an increase in the marker of sympathetic control to vasculature.

Published

2023

19. Transfer Function Gain Between Heart Period and QT Interval Variability Decreases at a 10-year Follow-up in Half-Marathon Runners

Author

'Beatrice De Maria, Vlasta Bari, Beatrice Cairo, Francesca Gelpi, Daniela Lucini, Massimo Pagani, Mara Malacarne, Aparecida Maria Catai, Mariana de Oliveira Gois, Francesca Perego, Laura Adelaide Dalla Vecchia, and Alberto Porta\\'

Published

2022

20. Obstructive and Central Sleep Apnea in First Ever Ischemic Stroke are Associated with Different Time Course and Autonomic Activation

Author

Mara Malacarne, Francesco Fanfulla, Carlo W. Cereda, Guido Ferretti, Fabio Esposito, Alessia Riglietti, Mauro Manconi, Massimo Pagani, Daniela Lucini, and Marco Pons

Subjects

Neurophysiology and neuropsychology, medicine.medical_specialty, Central sleep apnea, RC435-571, 610 Medicine & health, Context (language use), Baroreflex, brain lesion, Lesion, Behavioral Neuroscience, Internal medicine, Nature and Science of Sleep, medicine, baroreflex, Stroke, Applied Psychology, Original Research, Psychiatry, Sleep disorder, business.industry, QP351-495, sleep-disordered breathing, Brain lesion, Chemoreflex, Sleep-disordered breathing, medicine.disease, Obstructive sleep apnea, Periodic breathing, sleep disorder breathing, Cardiology, medicine.symptom, business, chemoreflex

Abstract

Alessia Riglietti,1,&ast; Francesco Fanfulla,2,&ast; Massimo Pagani,3 Daniela Lucini,3,4 Mara Malacarne,3,4 Mauro Manconi,5– 7 Guido Ferretti,8,9 Fabio Esposito,10,11 Carlo W Cereda,12 Marco Pons1 1Department of Pulmonology, Regional Hospital of Lugano (EOC), Lugano, 6900, Switzerland; 2Respiratory Function and Sleep Unit – Istituti Clinici Scientifici Maugeri IRCCS, Pavia, Italy; 3Exercise Medicine Unit, Istituto Auxologico Italiano, MIlan, 20133, Italy; 4University of Milan, BIOMETRA Department, Milan, Italy; 5Sleep and Epilepsy Center, Neurocenter of the Southern Switzerland, Regional Hospital (EOC) of Lugano, Lugano, Switzerland; 6Faculty of Biomedical Sciences, Università della Svizzera Italiana, Lugano, Switzerland; 7Department of Neurology, University Hospital, Inselspital, Bern, Switzerland; 8Department APSI, University of Geneva, Geneva, Switzerland; 9Department of Molecular and Translational Medicine, University of Brescia, Brescia, Italy; 10Department of Biomedical Sciences for Health, Università degli Studi di Milano, Milan, Italy; 11IRCCS Istituto Ortopedico Galeazzi, Milan, Italy; 12Stroke Center EOC, Department of Neurology, Neurocenter of Southern Switzerland Regional Hospital (EOC) of Lugano, Lugano, Switzerland&ast;These authors contributed equally to this workCorrespondence: Mauro ManconiRegional Hospital of Lugano, Via Tesserete, 46, Lugano, 6903, SwitzerlandTel +41-91-8116825Email mauro.manconi@eoc.chIntroduction: Sleep-related breathing disorders are highly prevalent in patients with ischemic stroke. Among sleep-disordered breathing disorders, obstructive sleep apnea is the most represented one, but central sleep apnea, isolated or in the context of a periodic breathing/Cheyne–Stokes respiration, is frequently reported in these patients. Altered baroreflex responses have been reported in the acute phases of a cerebral event.Methods: We conducted, in a group of patients with ischemic stroke (n=60), a prospective 3-month follow-up physiological study to describe the breathing pattern during sleep and baroreflex sensitivity in the acute phase and in the recovery phase.Results: In the acute phase, within 10 days from the onset of symptoms, 22.4% of patients had a normal breathing pattern, 40.3% had an obstructive pattern, 16.4% had a central pattern, and 29.9% showed a mixed pattern. Smaller variations in the Apnea–Hypopnea Index were found in normal breathing and obstructive groups (ΔAHI 2.1± 4.1 and − 2.8± 11.6, respectively) in comparison with central and mixed patterns (ΔAHI − 6.9± 15.1 and − 12.5± 13.1, respectively; ANOVA p=0.01). The obstructive pattern became the most frequent pattern, in 38.3% of patients at baseline and 61.7% of patients at follow-up. Modification of baroreflex sensitivity over time was influenced by the site of the lesion and by the sleep disorder pattern in the acute phase (MANOVA p=0.005).Conclusion: We suggest that a down-regulation of autonomic activity, possibly related to reduced vagal modulation, may help the recovery after stroke, or a transitory disconnection from the cortical node that participates in the regulation of sympathetic outflow.Keywords: sleep-disordered breathing, baroreflex, chemoreflex, brain lesion

Published

2021

21. Progressive Additive Benefits of Prehabilitation and Subsequent Bariatric Surgery on Cardiac Autonomic Regulation as Assessed by Means of a Simple Unitary Composite Index: Preliminary Data from an Observational Study

Author

Lucini, Luca Giovanelli, Carlo Palombo, Matteo Pina, Simone Facchetti, Mara Malacarne, Massimo Pagani, Monica Nannipieri, Rossana Berta, and Daniela

Subjects

bariatric surgery, lifestyle intervention, autonomic nervous system, heart rate variability, exercise, sympathetic activity, prehabilitation

Abstract

Obesity is associated with an increased risk of several chronic comorbidities, which may also be determined by dysfunctional autonomic nervous system (ANS). The influence of bariatric surgery (BS) on ANS balance was explored in previous studies, but with high heterogeneity in both the assessment timing and methods employed. In the present observational study, we applied a clinical protocol which considers two subsequent phases. Twenty-nine non-diabetic obese subjects were studied at baseline (T0), after one month of lifestyle modification (prehabilitation) (phase 1-T1), and after eight months following BS (phase 2-T2). ANS regulation was assessed across the three study epochs by means of ANSI, a single composite percent-ranked proxy of autonomic balance, being free of gender and age bias, economical and simple to apply in a clinical setting. The aim of the present study was to investigate the effects of the clinical protocol based on prehabilitation and subsequent BS on the ANS regulation by means of ANSI. Potential intertwined correlations with metabolic parameters were also investigated. Notably, we observed a progressive improvement in ANS control, even by employing ANSI. Moreover, the reduction in the markers of sympathetic overactivity was found to significantly correlate with the amelioration in some metabolic parameters (fasting glucose, insulin levels, and waist circumference), as well as in stress and tiredness perception. In conclusion, this study provides convincing evidence that a unitary proxy of cardiac autonomic regulation (CAR) may reflect the progressive improvement in autonomic regulation following behavioral and surgical interventions in obese patients. Intriguingly, this might contribute to reducing cardiovascular and metabolic risk.

Published

2022

22. Progressive Additive Benefits of Prehabilitation and Subsequent Bariatric Surgery on Cardiac Autonomic Regulation as Assessed by Means of a Simple Unitary Composite Index: Preliminary Data from an Observational Study

Author

Luca, Giovanelli, Carlo, Palombo, Matteo, Pina, Simone, Facchetti, Mara, Malacarne, Massimo, Pagani, Monica, Nannipieri, Rossana, Berta, and Daniela, Lucini

Subjects

Settore M-EDF/01 - Metodi e Didattiche delle Attivita' Motorie, Settore MED/09 - Medicina Interna, exercise, bariatric surgery, autonomic nervous system, heart rate variability, lifestyle intervention, prehabilitation, sympathetic activity

Abstract

Obesity is associated with an increased risk of several chronic comorbidities, which may also be determined by dysfunctional autonomic nervous system (ANS). The influence of bariatric surgery (BS) on ANS balance was explored in previous studies, but with high heterogeneity in both the assessment timing and methods employed. In the present observational study, we applied a clinical protocol which considers two subsequent phases. Twenty-nine non-diabetic obese subjects were studied at baseline (T0), after one month of lifestyle modification (prehabilitation) (phase 1-T1), and after eight months following BS (phase 2-T2). ANS regulation was assessed across the three study epochs by means of ANSI, a single composite percent-ranked proxy of autonomic balance, being free of gender and age bias, economical and simple to apply in a clinical setting. The aim of the present study was to investigate the effects of the clinical protocol based on prehabilitation and subsequent BS on the ANS regulation by means of ANSI. Potential intertwined correlations with metabolic parameters were also investigated. Notably, we observed a progressive improvement in ANS control, even by employing ANSI. Moreover, the reduction in the markers of sympathetic overactivity was found to significantly correlate with the amelioration in some metabolic parameters (fasting glucose, insulin levels, and waist circumference), as well as in stress and tiredness perception. In conclusion, this study provides convincing evidence that a unitary proxy of cardiac autonomic regulation (CAR) may reflect the progressive improvement in autonomic regulation following behavioral and surgical interventions in obese patients. Intriguingly, this might contribute to reducing cardiovascular and metabolic risk.

Published

2022

23. A four-week prehabilitation program in candidates for bariatric surgery improves hemodynamic load, metabolism and cardiac autonomic regulation

Author

Carlo Palombo, Monica Nannipieri, Mara Malacarne, Michaela Kozakova, Daniela Lucini, Massimo Pagani, and Carmela Morizzo

Subjects

Autonomic nervous system, Exercise, Hear rate variability, Lifestyle, Nutrition, Prehabilitation, business.industry, Endocrinology, Diabetes and Metabolism, MEDLINE, Hemodynamics, General Medicine, medicine.disease, Autonomic regulation, Endocrinology, Anesthesia, Diabetes mellitus, Internal Medicine, medicine, business

Published

2021

24. Determinants of Left Atrial Compliance in the Metabolic Syndrome: Insights from the “Linosa Study”

Author

Vecchia, Paolo Barbier, Edvige Palazzo Adriano, Daniela Lucini, Massimo Pagani, Gaspare Cusumano, Beatrice De Maria, and Laura Adelaide Dalla

Subjects

left atrial compliance, cardiovascular risk factors, metabolic syndrome, dyslipidaemia, echocardiography, cardiovascular prevention, cardiovascular diseases

Abstract

The association between left atrial (LA) impairment and cardiovascular diseases (CVD) and between dyslipidaemia and CVD are well known. The present study aims to investigate the relationships between metabolic factors and LA dimensions and compliance, as well as test the hypothesis that metabolic factors influence LA function independent from hemodynamic mechanisms. Arterial blood pressure (BP), waist and hip circumference, metabolic indices, and a complete echocardiographic assessment were obtained from 148 selected inhabitants (M/F 89/59; age 20–86 years) of Linosa Island, who had no history of CVD. At enrollment, 27.7% of the subjects met the criteria for metabolic syndrome (MetS) and 15.5% for arterial hypertension (HTN). LA compliance was reduced in subjects with MetS compared to those without (53 ± 27% vs. 71 ± 29%, p = 0.04) and was even lower (32 ± 17%, p = 0.01) in those with MetS and HTN. At multiple regression analysis, the presence of MetS independently determined LA maximal area (r = 0.56, p < 0.001), whereas systolic BP and the total cholesterol/HDL cholesterol ratio determined LA compliance (r = 0.41, p < 0.001). In an apparently healthy population with a high prevalence of MetS, dyslipidaemia seems to independently influence LA compliance. At a 5-year follow-up, LA compliance was reduced in both all-cause and CVD mortality groups, and markedly impaired in those who died of CVD. These findings may contribute to understanding the prognostic role of LA function in CVD and strengthen the need for early and accurate lipid control strategies.

Published

2022

25. Multivariate Decomposition of Arterial Blood Pressure Variability for the Assessment of Arterial Control of Circulation.

Author

Federico Aletti, Tito Bassani, Daniela Lucini, Massimo Pagani, and Giuseppe Baselli

Published

2009

26. [Leadless pacemakers: results of a survey from implanter centers in the Lombardy region]

Author

Luca Rosario, Limite, Francesca, Baratto, Massimo, Mantica, Giusy, Sirico, Giovanni, Rovaris, Elisabetta, MOntemerlo, Domenico, Pecora, Massimo, Pagani, Luigi, Fedele, Giuseppe, Augello, Francesca, Zuffada, Roberto, Rordorf, Francesco, Ambrosini, Lorenzo, Gigli, Paolo, De Filippo, Antonio, Pani, Giovanni, Forleo, Gianfranco, Mitacchione, Paolo, Della Bella, and Patrizio, Mazzone

Subjects

Pacemaker, Artificial, Surveys and Questionnaires, Atrial Fibrillation, Humans, Equipment Design, Atrioventricular Block, Aged

Abstract

Transvenous pacing is nowadays the cornerstone of interventional management of bradyarrhythmias. It is still associated, however, with significant complications, mostly related to indwelling transvenous leads or device pocket. In order to reduce these complications, leadless pacemakers have been recently introduced into clinical practice, but no guidelines are yet available to indicate who are those patients that might benefit the most and whether leadless pacing should be preferred in the old or young population. This survey aims to describe the use of leadless pacemaker devices in a real-world setting.Eleven arrhythmia centers in the Lombardy region (out of a total of 17 participating centers) responded to the proposed questionnaire regarding patient characteristics and indications to leadless pacing.Out of a total of 411 patients undergoing leadless pacing during 4.2 ± 0.98 years, the median age was 77 years, with 0.18% of patients having less than 18 years, 29.9% 18-65 years, 34.3% 65-80 years and 35.6%80 years. The most common indication was slow atrial fibrillation (49% of patients), followed by atrioventricular block and sinoatrial dysfunction. Two centers reported in-hospital complications.Leadless pacemakers proved to be a safe pacing strategy actually destined mostly to elderly patients.

Published

2022

27. Relationship between Body Composition and Cardiac Autonomic Regulation in a Large Population of Italian Olympic Athletes

Author

Daniela Lucini, Antonio Spataro, Luca Giovanelli, Mara Malacarne, Raffaella Spada, Gianfranco Parati, Nadia Solaro, Massimo Pagani, Lucini, D, Spataro, A, Giovanelli, L, Malacarne, M, Spada, R, Parati, G, Solaro, N, and Pagani, M

Subjects

body composition, Settore M-EDF/01 - Metodi e Didattiche delle Attivita' Motorie, multivariate statistics, autonomic nervous system, heart rate variability, Medicine (miscellaneous), Settore MED/11 - Malattie dell'Apparato Cardiovascolare, multivariate statistic, elite athletes, exercise training, performance, sport, SECS-S/01 - STATISTICA, M-EDF/01 - METODI E DIDATTICHE DELLE ATTIVITA MOTORIE, MED/01 - STATISTICA MEDICA, elite athlete

Abstract

Athletic performance is determined by many factors, such as cardiorespiratory fitness, muscular strength and psychological features, which all interact simultaneously. The large Italian National Olympic Committee database of Olympic athletes offers a unique healthy population to verify the strength of the interplay among a number of major elements of training, including autonomic nervous system (ANS) modulation, biochemical indicators and body composition, in a system medicine approach. This observational, retrospective study involved 583 individuals. As part of the yearly precompetitive examination, cardiac autonomic (heart rate variability), psychological, physical (cycloergometer stress test), biochemical and body composition (BOD POD) evaluations were performed. In subsequent analysis, we first considered the relationship between body composition and single individual variables in a simple correlation matrix, including a multitude of variables; then, Exploratory Factor Analysis (EFA) restricted the information to six latent domains, each combining congruent information in relation to body composition. Finally, we employed a multiple quantile regression model to evaluate possible relationships between ANSIs (index capable of synthetizing ANS regulation) and the latent domains indicated by EFA reflecting body composition. We observed a clear relationship between ANS and body mass composition parameters, as indicated by both bivariate correlations and the quantile regression result of ANSIs versus the latent domain aggregating mainly body composition data expressed in % (p = 0.002). In conclusion, these results suggest that specific training may elicit parallel adaptation of ANS control and body composition. The analysis of Olympic athletes’ data allowed us to obtain a better understanding of the complex, multidimensional factors involved in determining sport performance. The latter appears to be determined by the simultaneous interaction not only of cardiorespiratory fitness, muscular strength and psychological features, but also of ANS cardiovascular modulation and body composition.

Published

2022

28. Effects of Endurance Exercise Intensities on Autonomic and Metabolic Controls in Children with Obesity: A Feasibility Study Employing Online Exercise Training

Author

Valeria Calcaterra, Giuseppina Bernardelli, Mara Malacarne, Matteo Vandoni, Savina Mannarino, Vittoria Carnevale Pellino, Cristiana Larizza, Massimo Pagani, Gianvincenzo Zuccotti, and Daniela Lucini

Subjects

obesity, exercise intensity, training, online exercise training, Nutrition and Dietetics, children, autonomic nervous system, heart rate variability, metabolic control, Food Science

Abstract

Exercise is one of the major determinants of a healthy lifestyle, which is particularly important in childhood and serves as a powerful preventive tool. On the other hand, obesity and arterial hypertension rates are increasing in children, representing a huge risk for developing major cardiovascular and metabolic diseases in adult life. Of fundamental importance is the modality and volume of exercise required to obtain benefits. In this feasibility study, we considered a group of obese children, studied before and after a 12-week online exercise training program, and subdivided the participants into two groups considering the volume of exercise performed (above or below 1200 MET·min/week). This threshold level was applied in two different ways: subdivision A considered the total weekly physical activity volume (considering both time spent walking for at least 10 min consecutively and time spent performing structured exercise) and subdivision B considered only the weekly volume of structured exercise. We assessed autonomic and metabolic control and auxological and lifestyle parameters. We observed that the improved volume of structured exercise was associated with reduced arterial pressure percentile only in subdivision B and an improvement in markers of vagal and metabolic control was evident. Moreover, the 12-week online exercise training program, defined considering individual fitness level and progressively adapted as the goal was reached, proved to be sustainable from an economical and organizational point of view.

Published

2023

29. Coupling arterial windkessel with peripheral vasomotion: modeling the effects on low-frequency oscillations.

Author

Giuseppe Baselli, Alberto Porta, and Massimo Pagani

Published

2006

30. Global versus local linear beat-to-beat analysis of the relationship between arterial pressure and pulse transit time during dynamic exercise.

Author

Alberto Porta, C. Gasperi, Giandomenico Nollo, Daniela Lucini, P. Pizzinelli, Renzo Antolini, and Massimo Pagani

Published

2006

31. Evidence of Better Autonomic, Metabolic and Psychological Profile in Breast Cancer Survivors Meeting Current Physical Activity Recommendations: An Observational Study

Author

Daniela, Lucini, Mara, Malacarne, Wolfgang, Gatzemeier, Eleonora, Pagani, Giuseppina, Bernardelli, Gianfranco, Parati, and Massimo, Pagani

Abstract

The increased cardiometabolic risk observed in breast cancer survivors (BCS) is due to multiple mechanisms: Hormonal and immunological dysfunction are well-identified ones, while cardiac autonomic regulation (CAR) is less recognized but may play a new complementary role particularly relevant when considering conditions and behaviors associated with a better prognosis in BCS, such as physical training. This observational study investigated a group of consecutive (172) BCS subdivided in two groups: those who reached the physical activity goals above 600 (MET·min/week) and those who did not. We assessed CAR by autoregressive spectral analysis of cardiovascular variabilities (considering in particular the unitary autonomic nervous system index-ANSI), body mass composition, stress perception and lifestyle in order to verify possible differences due to execution of physical activity. Subjects who spontaneously met physical activity recommendations presented a better autonomic, metabolic and psychological profile compared to those who did not. Lower physical activity volume, poor metabolic parameters, increased stress and fatigue perception may cluster together, leading to worsened CAR. This control mechanism may play a complementary role in determining the increased cardiometabolic risk observed in BCS. Furthermore, it may also explain, albeit in part, the better prognosis observed in patients following interventions aiming to improve the sympathetic-parasympathetic balance, such as physical training, using a personalized medicine approach.

Published

2021

32. Quantifying the strength of the linear causal coupling in closed loop interacting cardiovascular variability signals.

Author

Alberto Porta, Raffaello Furlan, Ornella Rimoldi, Massimo Pagani, Alberto Malliani, and Philippe van de Borne

Published

2002

33. Entropy, entropy rate, and pattern classification as tools to typify complexity in short heart period variability series.

Author

Alberto Porta, Stefano Guzzetti, Nicola Montano, Raffaello Furlan, Massimo Pagani, Alberto Malliani, and Sergio Cerutti

Published

2001

34. Prediction of short cardiovascular variability signals based on conditional distribution.

Author

Alberto Porta, Giuseppe Baselli, Stefano Guzzetti, Massimo Pagani, Alberto Malliani, and Sergio Cerutti

Published

2000

35. Left ventricular hypertrophy in world class elite athletes is associated with signs of improved cardiac autonomic regulation

Author

Antonio Pelliccia, Gianluigi Oggionni, Antonio Spataro, Mara Malacarne, Daniela Lucini, and Massimo Pagani

Subjects

medicine.medical_specialty, Epidemiology, business.industry, 030204 cardiovascular system & hematology, Left ventricular hypertrophy, medicine.disease, Autonomic regulation, World class, 03 medical and health sciences, Autonomic nervous system, 0302 clinical medicine, Cardiac mass, Cardiac hypertrophy, Internal medicine, medicine, Cardiology, Elite athletes, 030212 general & internal medicine, Cardiology and Cardiovascular Medicine, business

Abstract

Aim In this study we sought to assess whether in elite athletes the physiological increase in cardiac mass attending severe long-term training leading to athlete's heart is accompanied by an improvement of autonomic performance, as assessed by post exercise vagal indices and a novel unitary Autonomic Nervous System Index for sports (ANSIs). Methods The study involved 500 elite athletes (23.9 ± 6.4 years) participating in a screening organised by the National Italian Olympic Committee. All subjects underwent a complete medical examination, rest and stand autonomic assessment (heart rate variability) as well as bicycle exercise. ANSIs was also derived as radar plot from rest, stand and heart rate recovery individual proxies of autonomic nervous system regulation. All subjects were grouped into those with left ventricular hypertrophy present (LVH(+)), or not (LVH(–)), according to recognised thresholds. Results We observed that LVH(+) athletes (24.8%) showed a marked increase of post-exercise vagal indices (p Conclusions Elite athletes with physiological cardiac hypertrophy (LVH(+)) present a selective profile of indices of autonomic nervous system performance, characterised by increases of markers of vagal recovery and of the novel unitary autonomic index for sports while RR variance and spectral indices seem to be unmodified. Athlete's heart may be characterised by a specific combination of anatomical and neurocardiac remodeling. This approach might furnish potential warning signs differentiating normal training induced physiology from pathological adaptation.

Published

2019

36. Ten-year follow-up of cardiac function and neural regulation in a group of amateur half-marathon runners

Author

Daniela Lucini, Beatrice De Maria, Aparecida Maria Catai, Massimo Pagani, Alberto Porta, Christian Marra, Mariana de Oliveira Gois, and Laura Adelaide Dalla Vecchia

Subjects

Cardiac function curve, Adult, Male, medicine.medical_specialty, Population, Physical examination, Physical exercise, Blood Pressure, Marathon Running, cardiac neural control, 030204 cardiovascular system & hematology, Baroreflex, Nervous System, 03 medical and health sciences, physical training, 0302 clinical medicine, Heart Rate, Internal medicine, medicine, Heart rate variability, Humans, Diseases of the circulatory (Cardiovascular) system, education, Aged, education.field_of_study, medicine.diagnostic_test, biology, exercise, Athletes, business.industry, heart rate variability, sympatho-vagal modulation, 030229 sport sciences, Middle Aged, biology.organism_classification, baroreflex sensitivity, Cardiac Risk Factors and Prevention, Blood pressure, RC666-701, Cardiology, Female, Cardiology and Cardiovascular Medicine, business, Follow-Up Studies, Forecasting

Abstract

ObjectiveIn the last years, a debate exists about type, intensity and frequency of physical exercise that is really indicated to protect healthy subjects from cardiovascular disease. Regular physical training has been associated with an improved cardiovascular risk profile, but it has also been demonstrated that strenuous and uncontrolled physical exercise could be dangerous, in terms of increased cardiovascular morbidity and mortality. In the present study, we evaluated a group of 35 amateur half-marathon runners, who were likewise studied 10 years before (B). The results of B suggested that an increased cardiac sympathetic modulation could potentially represent a negative prognostic factor. The aim of this follow-up was to assess the medium–long-term effects of moderate to vigorous physical training on the cardiovascular neural control, cardiac function and occurrence of cardiovascular diseases.MethodsEach enrolled subject underwent: (1) an interview and physical examination to ascertain the presence of cardiovascular disease; (2) standing test to evaluate the cardiovascular neural control by means of heart rate variability (HRV), arterial blood pressure (AP) variability and baroreflex sensitivity (BRS); (3) transthoracic echocardiography to evaluate cardiac function.ResultsAt 10-year follow-up (FU), in this group of middle-aged athletes the occurrence of cardiovascular diseases was low, not unlike that of the overall population. The results of HRV analysis showed a decreased sympathetic and increased vagal modulation directed to the heart, compared with B. In addition, HRV, AP variability and BRS indices showed a physiological response to active standing. Finally, athletes had normal echocardiographic measures.ConclusionWe conclude that in our group of athletes a regular moderate–vigorous physical training through the 10 years was quite beneficial as the prevalence of sympathetic cardiac modulation observed at B was not accompanied by increased cardiovascular risk, on the contrary a slight prevalence of vagal indices was observed at FU.

Published

2021

37. Spectral decomposition in multichannel recordings based on multivariate parametric identification.

Author

Giuseppe Baselli, Alberto Porta, Ornella Rimoldi, Massimo Pagani, and Sergio Cerutti

Published

1997

38. Interpreting Heart Rate Variability in Sleep: Why, When, and How?

Author

Francesca Baschieri, Pietro Cortelli, Pietro Guaraldi, Massimo Pagani, and Daniela Lucini

Subjects

Autonomic nervous system, Basal forebrain, medicine.anatomical_structure, Central nervous system, Forebrain, medicine, Heart rate variability, Biology, Neuroscience, Sleep in non-human animals, Neuronal pathway, Homeostasis

Abstract

Sleep and the autonomic nervous system (ANS) are biologically and clinically associated. Neuronal pathways located in the brain stem and basal forebrain responsible for the wake–sleep transition are connected with areas of the central nervous system regulating ANS activity. Indeed, at the forebrain diencephalic level, sleep itself may be considered to be one of the most highly integrated autonomic functions in which behavioral and homeostatic integration occurs. In turn, this integration is bidirectionally interconnected with the other hierarchical levels.

Published

2021

39. Altered Cardiac Autonomic Regulation in Overweight and Obese Subjects: The Role of Age-and-Gender-Adjusted Statistical Indicators of Heart Rate Variability and Cardiac Baroreflex

Author

Daniela Lucini, Massimo Pagani, Nadia Solaro, Solaro, N, Pagani, M, and Lucini, D

Subjects

cardiovascular risk, medicine.medical_specialty, Physiology, Population, Context (language use), 030204 cardiovascular system & hematology, Baroreflex, Overweight, lcsh:Physiology, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Physiology (medical), Medicine, Heart rate variability, sympathetic-parasympathetic balance, education, M-EDF/01 - METODI E DIDATTICHE DELLE ATTIVITA MOTORIE, MED/01 - STATISTICA MEDICA, Original Research, education.field_of_study, lcsh:QP1-981, exploratory factor analysis, business.industry, non-parametric statistical inference, life style, medicine.disease, Obesity, Autonomic nervous system, exploratory factor analysi, SECS-S/01 - STATISTICA, Cardiology, percentile rank transformation, medicine.symptom, business, Body mass index, 030217 neurology & neurosurgery

Abstract

In the context of functional determinants of cardiovascular risk, a simple excess in body weight, as indexed by a rise in body mass index (BMI), plays a significant, well-recognized causal role. Conversely, BMI reductions toward normal result in an improvement of risk. Obesity is associated with impaired cardiac autonomic regulation (CAR), through either vagal or sympathetic mechanisms, which could favor the tendency to foster hypertension. Here we study the changing properties of the relationship between increasing grades of BMI and CAR in a population of 756 healthy subjects (age 35.9 ± 12.41 years, 37.4% males, 21.6% overweight, and 16% obese). Evaluation of CAR is based on autoregressive spectral analysis of short-term RR interval and systolic arterial pressure variability, from which a multitude of indices, treated overall as autonomic nervous system (ANS) proxies, is derived. Inspection of the study hypothesis that elevated BMI conditions associate significantly with alterations of CAR, independently of age and gender, is carried out using a mix of statistical transformations, exploratory factor analysis, non-parametric testing procedures, and graphical tools particularly well suited to address alterations of CAR as a disturbed process. In particular, to remove the effects of the inter-individual variability, deriving from components like age, gender or ethnicity, and to reduce the number of ANS proxies, we set up six age-and-gender-adjusted CAR indicators, corresponding to four ANS latent domains (oscillatory, amplitude, pressure, and pulse), cardiac baroreflex regulation, and autonomic nervous system index (ANSI). An impairment of the CAR indicators is overall evident in the overweight group and more marked in the obesity group. Empirical evidence is strong (9/9 concordant non-parametric test results) for pressure domain, almost strong (8/9) for ANSI, medium-strong for baroreflex (6/9) and pulse (7/9), weak for oscillatory (2/9) and amplitude (1/9) domains. In addition, the distribution of the CAR indicators corresponding to pressure, pulse, baroreflex, and ANSI is skewed toward the unfavorable abscissa extremity, particularly in the obese group. The significant association of increased BMI with progressive impairments of CAR regarding specifically the pressure domain and the overall ANS performance might underscore the strong hypertensive tendency observed in obesity.

Published

2021

40. Cardiac Autonomic Effects of Yearly Athletic Retreats on Elite Basket Players. Usefulness of a Unitary Autonomic Nervous System Indicator

Author

Massimo Pagani, Maria Chiara Meucci, Daniela Lucini, Leonarda Galiuto, and Mara Malacarne

Subjects

medicine.medical_specialty, Basketball, Geography, Planning and Development, TJ807-830, 030204 cardiovascular system & hematology, Management, Monitoring, Policy and Law, TD194-195, Autonomic regulation, Renewable energy sources, 03 medical and health sciences, stress, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Summer camp, Spectral analysis, Elite athletes, GE1-350, training, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, 030229 sport sciences, autonomic cardiac regulation, spectral analysis, Environmental sciences, Autonomic nervous system, Elite, team sports, business

Abstract

In most sports athletic performance is determined by a combination of hard and soft modifiable components, encompassing physical and psychological elements that can be assessed with modern techniques based respectively on simple friendly methods: analysis of HRV and questionnaires. Specifically a novel % rank Autonomic Nervous System Indicator (ANSI) seems particularly useful also in elite sports. In this investigation we assessed ANSI capacity to detect the expected changes in cardiac autonomic regulation induced in the Italian basketball team by the participation (18 subjects) to the yearly biweekly Alpine training summer camp. We observed that ANSI increased from 58.8 ± 32.5 to 81.7 ± 27.5 (at the end of training camp) and did not change further in the subsequent initial weeks of competition season (overall p < 0.001). Congruent changes were observed in non-linear indices. Concomitantly indices of somatic symptoms were slightly reduced just at the end of the alpine training. We conclude that analysis of HRV and questionnaires might offer a simple, useful technique to monitor changes in cardiac autonomic regulation and psychological state in elite athletes providing a convenient additional element to evaluation of training routines also in the fields.

Published

2021

41. Interaction between Autonomic Regulation, Adiposity Indexes and Metabolic Profile in Children and Adolescents with Overweight and Obesity

Author

Carlo Palombo, Mara Malacarne, Giovanni Federico, Michaela Kozakova, Gian Vincenzo Zuccotti, Valeria Calcaterra, Daniela Lucini, and Massimo Pagani

Subjects

medicine.medical_specialty, Endothelium, peripheral endothelium, pediatric obesity, Alpha (ethology), Hemodynamics, Overweight, Pediatrics, RJ1-570, Article, Correlation, children, metabolic, Internal medicine, medicine, overweight, adolescents, adiposity index, business.industry, medicine.disease, Obesity, Peripheral, autonomic regulation, Blood pressure, medicine.anatomical_structure, Pediatrics, Perinatology and Child Health, Cardiology, medicine.symptom, business

Abstract

Early obesity predicts initial modifications in cardiac and vascular autonomic regulation. The aim of this study was to assess the possible interaction between non-invasive measures of autonomic cardiovascular control and peripheral endothelium regulation in children with overweight and obesity. We involved 114 young subjects (77M/37F, 12.7 ± 2.2 years) with normal weight (NW, n = 46) to overweight or obesity (OB, n = 68). Multivariate statistical techniques utilizing a collection of modern indices of autonomic regulation, adiposity indexes and metabolic profile were employed. Resting values show substantial equivalence of data. Conversely, blood pressure variance is greater in NW/OB groups. The correlation matrix between major autonomic and metabolic/hemodynamic variables shows a clustered significant correlation between homogeneous indices. A significant correlation between metabolic indices and endothelial and autonomic control, mostly in its vascular end, was recorded. Particularly, the alpha index is significantly correlated with triglycerides (r = −0.261) and endothelial indices (RHI, r = 0.276). Children with obesity show a link between indices of autonomic and endothelial function, fat distribution and metabolic profile. The optimization of autonomic control, for instance by exercise/nutrition interventions, could potentially prevent/delay the occurrence of structural vascular damage leading to reduced cardiovascular health.

Published

2021

42. Exercise Prescription to Foster Health and Well-Being: A Behavioral Approach to Transform Barriers into Opportunities

Author

Daniela Lucini and Massimo Pagani

Subjects

Health, Toxicology and Mutagenesis, Physical activity, exercise prescription, physical activity, lcsh:Medicine, Review, 030204 cardiovascular system & hematology, Health benefits, Nature versus nurture, 03 medical and health sciences, stress, 0302 clinical medicine, wellbeing, Physicians, Intervention (counseling), Humans, functional syndromes, 030212 general & internal medicine, Medical prescription, Exercise, Medical education, behavioral medicine, lcsh:R, Public Health, Environmental and Occupational Health, Exercise Therapy, Prescriptions, Well-being, Behavioral medicine, Psychology, Exercise prescription

Abstract

The current literature contains multiple examples of exercise interventions to foster health and to prevent/treat many chronic non-communicable diseases; stress and functional syndromes. On the other hand, sedentariness is increasing and to transform a sedentary subject into a regular exerciser is not only very difficult but considered by some unrealistic in current clinical practice. Ideally a physical activity intervention may be considered actually efficacious when it outgrows the research setting and becomes embedded in a system, ensuring maintenance and sustainability of its health benefits. Physicians need specific skills to improve patients’ exercise habits. These range from traditional clinical competencies, to technical competencies to correctly prescribe exercise, to competencies in behavioral medicine to motivate the subject. From a behavioral and medical point of view, an exercise prescription may be considered correct only if the subject actually performs the prescribed exercise and this results in an improvement of physiological mechanisms such as endocrine, immunological and autonomic controls. Here we describe a model of intervention intended to nurture exercise prescription in everyday clinical setting. It aims to a tailored prescription, starts from the subject’s assessment, continues defining clinical goals/possible limitations and ends when the subject is performing exercise obtaining results.

Published

2021

43. Determinants of Left Atrial Compliance in the Metabolic Syndrome: Insights from the 'Linosa Study'

Author

Paolo Barbier, Edvige Palazzo Adriano, Daniela Lucini, Massimo Pagani, Gaspare Cusumano, Beatrice De Maria, and Laura Adelaide Dalla Vecchia

Subjects

cardiovascular risk factors, dyslipidaemia, Settore M-EDF/01 - Metodi e Didattiche delle Attivita' Motorie, Settore MED/09 - Medicina Interna, left atrial compliance, metabolic syndrome, echocardiography, cardiovascular prevention, Medicine (miscellaneous)

Abstract

The association between left atrial (LA) impairment and cardiovascular diseases (CVD) and between dyslipidaemia and CVD are well known. The present study aims to investigate the relationships between metabolic factors and LA dimensions and compliance, as well as test the hypothesis that metabolic factors influence LA function independent from hemodynamic mechanisms. Arterial blood pressure (BP), waist and hip circumference, metabolic indices, and a complete echocardiographic assessment were obtained from 148 selected inhabitants (M/F 89/59; age 20–86 years) of Linosa Island, who had no history of CVD. At enrollment, 27.7% of the subjects met the criteria for metabolic syndrome (MetS) and 15.5% for arterial hypertension (HTN). LA compliance was reduced in subjects with MetS compared to those without (53 ± 27% vs. 71 ± 29%, p = 0.04) and was even lower (32 ± 17%, p = 0.01) in those with MetS and HTN. At multiple regression analysis, the presence of MetS independently determined LA maximal area (r = 0.56, p < 0.001), whereas systolic BP and the total cholesterol/HDL cholesterol ratio determined LA compliance (r = 0.41, p < 0.001). In an apparently healthy population with a high prevalence of MetS, dyslipidaemia seems to independently influence LA compliance. At a 5-year follow-up, LA compliance was reduced in both all-cause and CVD mortality groups, and markedly impaired in those who died of CVD. These findings may contribute to understanding the prognostic role of LA function in CVD and strengthen the need for early and accurate lipid control strategies.

Published

2022

44. Streamlining Analysis of RR Interval Variability in Elite Soccer Players: Preliminary Experience with a Composite Indicator of Cardiac Autonomic Regulation

Author

Maurizio Casasco, Daniela Lucini, Leonarda Galiuto, Giorgio Galanti, Massimo Pagani, Fabio Pigozzi, Angelo Fallanca, and Mara Malacarne

Subjects

medicine.medical_specialty, Health, Toxicology and Mutagenesis, RR interval, Population, lcsh:Medicine, 030204 cardiovascular system & hematology, Article, Autonomic regulation, 03 medical and health sciences, cardiovascular regulation, 0302 clinical medicine, Physical medicine and rehabilitation, endurance training, Heart Rate, Endurance training, medicine, elite athletes, Humans, Spectral analysis, Proxy (statistics), education, Exercise, education.field_of_study, business.industry, Data Collection, autonomic nervous system, lcsh:R, Public Health, Environmental and Occupational Health, 030229 sport sciences, Composite indicator, soccer, spectral analysis, Autonomic nervous system, Athletes, business, human activities

Abstract

It is well recognized that regular physical activity may improve cardiac autonomic regulation preventing chronic non-communicable diseases. Accordingly, the assessment of cardiac autonomic regulation (CAR) with non-invasive techniques, such as RR interval Variability (V) might be of practical interest. We studied 56 soccer players (21.2 &plusmn, 4.2 years.) and 56 controls (22.2 &plusmn, 1.5 years.) and used a ranked Autonomic Nervous System Index (ANSI), resulting from the combination of multivariate statistical methodologies applied to spectral analysis derived indices from RRV. We hypothesized that ANSI would be higher in soccer players as compared to controls (p &lt, 0.001) and that values would be greatest in defenders and midfielders, who are known to run longer distances during competitions. Conversely in the intrinsically stationary goalkeepers ANSI would be similar to controls. Our data show that it is possible to assess the overall level of autonomic performance in soccer players as compared to the general population, using a ranked composite autonomic proxy (ANSI). This approach suggests as well that CAR is better in those players who during competitions run for a greater distance. We conclude that it is possible to highlight the differences in autonomic profile due to distinct exercise routines, using ANSI, a simple ranked, composite autonomic proxy.

Published

2020

45. Clinical and Experimental Evaluation of Sympatho-Vagal Interaction: Power Spectral Analysis of Heart Rate and Arterial Pressure Variabilities

Author

Alberto Malliani, Sergio Cerutti, Federico Lombardi, and Massimo Pagani

Subjects

medicine.medical_specialty, Blood pressure, business.industry, Internal medicine, Heart rate, Cardiology, medicine, Power spectral analysis, business

Published

2020

46. Can the use of a single integrated unitary autonomic index provide early clues for eventual eligibility for olympic games?

Author

Stefano Tamorri, Manuela Benzi, Roberto Sala, Daniela Lucini, Massimo Pagani, Antonio Spataro, and Mara Malacarne

Subjects

Adult, Male, Competitive Behavior, medicine.medical_specialty, Index (economics), Adolescent, Sports medicine, Physiology, media_common.quotation_subject, Athletic Performance, 030204 cardiovascular system & hematology, Autonomic Nervous System, Autonomic regulation, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), medicine, Humans, Orthopedics and Sports Medicine, Stress resilience, Exercise ecg, media_common, biology, Athletes, business.industry, Public Health, Environmental and Occupational Health, virus diseases, 030229 sport sciences, General Medicine, Middle Aged, Resilience, Psychological, biology.organism_classification, Female, Psychological resilience, business, geographic locations, Symptom score, Demography

Abstract

Optimal autonomic regulation and stress resilience might be considered critical elements of athletic performance. We hypothesize that a novel unitary autonomic index for sports (ANSIs), together with a somatic stress related symptom score (4SQ) might help characterize athletes who were eventually selected for the Rio 2016 Olympic Games Italian team (Rio +). In this retrospective study we examined 778 athletes (age 24.4 ± 6.7 yrs) who underwent a planned yearly pre-participation screening. All athletes underwent clinical, autonomic and exercise ECG evaluation. The combination of vagal and sympathetic indices from RR variability into ANSIs was performed by radar plot and percent ranking of index variables. We assessed (Rio +) versus (Rio −) athletes also after subdivision into three sport intensity groups (low, mid and high intensity). Overall there were no significant differences between (Rio +) and (Rio −) athletes when considering individual spectral derived variables. Conversely, the unitary Index ANSIs was significantly higher in (Rio +) compared to (Rio −) athletes (respectively 54.5 ± 29.5 and 47.9 ± 28.4 p = 0.014). This difference was particularly evident (p = 0.017) in the group of athletes characterized by both high static and dynamic components. 4SQ was smaller in the (Rio +) group, particularly in the groups of athletes characterized by both low-medium static and dynamic components. ANSIs, a proxy of integrated cardiac autonomic regulation and simple assessment of resilience to stress, may differentiate Italian athletes who were eventually selected for participation in the 2016 Rio Olympic Games from those who were not, suggesting the possibility of a “winning functional phenotype”.

Published

2018

47. Higher protein intake is associated with improved muscle strength in elite senior athletes

Author

Gabriele Toigo, Piero Portincasa, Daniela Lucini, Marcello Tence, Fabio Pigozzi, Filippo Giorgio Di Girolamo, Roberta Situlin, Marco Alessandro Minetto, Paolo De Colle, Gianni Biolo, Filippo Mearelli, Massimo Pagani, Nicola Fiotti, Ezio Ghigo, Di Girolamo, Filippo Giorgio, Situlin, Roberta, Fiotti, Nicola, Tence, Marcello, De Colle, Paolo, Mearelli, Filippo, Minetto, Marco Alessandro, Ghigo, Ezio, Pagani, Massimo, Lucini, Daniela, Pigozzi, Fabio, Portincasa, Piero, Toigo, Gabriele, and Biolo, Gianni

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Cross-sectional study, Endocrinology, Diabetes and Metabolism, Renal function, Elite senior athlete, 03 medical and health sciences, Endocrinology, 0302 clinical medicine, Athlete, Internal medicine, 80 and over, medicine, Humans, Mass index, 030212 general & internal medicine, Aged, Cross-Sectional Studie, Aged, 80 and over, 030109 nutrition & dietetics, Nutrition and Dietetics, Urinary urea nitrogen-to-urinary creatinine ratio, biology, Muscle strength, Athletes, business.industry, Dietary Protein, Elite senior athletes, Protein intake, biology.organism_classification, Trunk, Diet, Diabetes and Metabolism, Cross-Sectional Studies, Homogeneous, Physical therapy, Female, Dietary Proteins, business, Muscle Strength, Human

Abstract

OBJECTIVE: The optimal protein intake for elderly individuals who exercise regularly has not yet been clearly defined. The aim of this study was to test the hypothesis that protein intake level is associated with muscle strength in elderly elite athletes. METHODS: We evaluated 50 elite senior athletes (38 men and 12 women) participating in the European Master Games 2011 in an observational cross-sectional study. Participants were divided into two groups-lower (LPI) or higher (HPI) protein intake-according to the median value of their ratio of urinary urea nitrogen to urinary creatinine (i.e., 8.8 g/L), as a marker of protein intake. A dietary interview confirmed differences in protein consumption between the LPI and HPI groups. We also evaluated body composition (bioimpedance), muscle strength, and hematochemical indices. RESULTS: LPI and HPI groups were homogeneous for age (72 [68-74] and 71 [68-74] y, respectively), fat-free mass index (18.4 [17-19.4] and 18.2 [17-19.1] kg/m2), body fat (18.3% [12.3-20.7%] and 16.6% [13.6-21.2%]), and glomerular filtration rate (57.7 [53.8-64.9] and 62.7 [56.1-69.3] mL/min/1.73 m2). The HPI group showed greater leg and trunk muscle strength (N) compared with the LPI group (left leg extension, 339 [238-369] versus 454 [273-561], respectively, P < 0.05; right leg extension, 319 [249-417] versus 432 [334-635], P ≤ 0.05; trunk extension, 435 [370-467] versus 464 [390-568], P ≤ 0.05). CONCLUSIONS: Higher protein intake in elite senior athletes is associated with a greater muscle strength.

Published

2017

48. Heart rate variability to monitor performance in elite athletes: Criticalities and avoidable pitfalls

Author

Roberto Sala, Stefano Tamorri, Manuela Benzi, Daniela Lucini, Massimo Pagani, Mara Malacarne, Ilaria Marchetti, and Antonio Spataro

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, Respiratory rate, Population, Athletic Performance, 030204 cardiovascular system & hematology, Electrocardiography, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Rhythm, Heart Rate, Internal medicine, Respiration, medicine, Humans, Telemetry, Heart rate variability, Sinus rhythm, education, education.field_of_study, biology, Athletes, business.industry, 030229 sport sciences, biology.organism_classification, Autonomic nervous system, Physical therapy, Cardiology, Female, Cardiology and Cardiovascular Medicine, business

Abstract

Background Spectral analysis of Heart Rate Variability (HRV) is a simple, non-invasive technique that is widely used in sport to assess sympatho-vagal regulation of the heart. Its employment is increasing partly due to the rising usage of wearable devices. However data acquisition using these devices may be suboptimal because they cannot discriminate between sinus and non-sinus beats and do not record any data regarding respiratory frequency. This information is mandatory for a correct clinical interpretation. Methods This study involved 974 elite athletes, all of them underwent a complete autonomic assessment, by way of Autoregressive HRV analysis. Results In 91 subjects (9% of the total population) we observed criticalities of either cardiac rhythm or respiration. Through perusal of one-lead ECG analysis we observed that 77 subjects had atrial or ventricular ectopy, i.e. conditions which impair stationarity and sinus rhythm. Running anyway autonomic nervous system analysis in this population, we observed that RR variance and raw values of LF and HF regions are significantly higher in arrhythmic subjects. In addition 14 subjects had slow (about 6 breath/min, 0.1Hz) respiration. This condition clouds the separation between LF from HF spectral regions of RR interval variability, respectively markers of the prevalent sympathetic and vagal modulation of SA node and of their synergistic interaction. Conclusions Caution must be payed when assessing HRV with non-ECG wearable devices. Recording ECG signal and ensuring that respiratory rate is higher than 10 breath/min are both prerequisites for a more reliable analysis of HRV particularly in athletes.

Published

2017

49. Heart rate variability, autonomic regulation and myocardial ischemia

Author

Daniela Lucini and Massimo Pagani

Subjects

medicine.medical_specialty, Myocardial ischemia, business.industry, medicine.disease, Autonomic regulation, Coronary artery disease, Autonomic nervous system, Internal medicine, Heart rate, medicine, Cardiology, Heart rate variability, Cardiology and Cardiovascular Medicine, business

Published

2020

50. A Simple Home-Based Lifestyle Intervention Program to Improve Cardiac Autonomic Regulation in Patients with Increased Cardiometabolic Risk

Author

Mara Malacarne, Wolfgang Gatzemeier, Massimo Pagani, and Daniela Lucini

Subjects

medicine.medical_specialty, Waist, Geography, Planning and Development, TJ807-830, 030204 cardiovascular system & hematology, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Autonomic regulation, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, prevention, home-based intervention, Medicine, GE1-350, 030212 general & internal medicine, Medical prescription, autonomic nervous system, exercise, nutrition, heart rate variability, Environmental effects of industries and plants, medicine.diagnostic_test, Renewable Energy, Sustainability and the Environment, business.industry, Cognition, Environmental sciences, Autonomic nervous system, Observational study, business, Lipid profile, Bioelectrical impedance analysis

Abstract

Lifestyle modification programs (LMP) represent a new approach to cardiometabolic/oncologic risk reduction. Successful LMP in clinical practice must be feasible, cost effective, efficacious and consider home-based exercise. Likewise, multiple mechanisms implied in cardiometabolic risk reduction such as cardiac autonomic regulation (CAR) should be easily evidenced, in spite of the computational complexity involved. This goal could be facilitated by employing novel, friendlier, simpler techniques, such as the Autonomic Nervous System Index (ANSI), which can be treated as a proxy of CAR. In this observational study, we introduce a simple LMP (based on cognitive behavioral strategies and patient-tailored prescription of nutrition and home-based exercise, managed by a single physician) into the currently existing clinical practice of secondary cardiometabolic prevention. In 26 subjects, we assessed CAR (autoregressive spectral analysis of cardiovascular variabilities), body mass composition (bioelectrical impedance analysis) and stress perception (questionnaires). After LMP, ANSI and lipid profile were improved; % of fat mass, waist circumference and stress perception were reduced. We conclude that this preliminary, proof of concept study provides significant evidence in favor of the hypothesis that it is possible to introduce a convenient, cost effective LMP into the currently existing clinical practice of secondary cardiometabolic prevention. Findings suggest a successful comprehensive behavioral change, possibly facilitated by the simplified approach employed in this study, capable of improving cardiac autonomic regulation in addition to body mass composition and stress perception.

Published

2020