Priming the cardiodynamic phase of pulmonary oxygen uptake through voluntary modulations of the respiratory pump at the onset of exercise

Stucky, Frédéric; Aliverti, Andréa; Kayser, Bengt; Uva, Barbara

doi:10.1113/ep089180

Cited by 4 publications

(8 citation statements)

References 41 publications

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“…the increase in right ventricular filling would reduce left ventricular compliance) and increase afterload (Cheyne et al., 2020), although these effects remain unclear during exercise (Cheyne et al., 2018). In previous work, we found that during exercise, ‘abdominal’ and ‘rib cage’ breathing manoeuvres, designed to increase intra‐abdominal and intrathoracic pressure swings selectively by emphasizing the action of the diaphragm and the rib cage muscles, respectively, resulted in an increase in Vbs swings compared with spontaneous breathing (Stucky et al., 2021; Uva et al., 2016).…”

Section: Discussionmentioning

confidence: 97%

“…Mathematical subtraction of the two signals yielded the volume of blood shifted between the trunk and the extremities (volume of blood shift; Vbs) (Aliverti et al, 2009(Aliverti et al, , 2010Uva et al, 2016;LoMauro & Aliverti, 2018;Stucky et al, 2021). Prior to the computation of Vbs, a validated algorithm was used to (1) correct the drift in the ∆Vb signal due to changes in thermodynamic conditions based on measured values of temperature and humidity and (2) automatically select the level of a wavelet filter applied to remove the remaining drift in ∆Vb due to numerical integration of the flow signal (Stucky et al, 2020).…”

Section: Computation Of Blood Shifts (Vbs)mentioning

confidence: 99%

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Blood shifts between body compartments during submaximal exercise with induced expiratory flow limitation in healthy humans

Stucky

Uva

Kayser

et al. 2022

The Journal of Physiology

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 External expiratory flow limitation (EFLe) can be applied in healthy subjects to mimic the effects of chronic obstructive pulmonary disease (COPD) and safely study the mechanisms of exercise intolerance associated with the disease. At maximal exercise intensity with EFLe, exercise intolerance results from high expiratory pressures altering the respiratory pump mechanism and limiting venous return. We used double body plethysmography to quantify blood shifting between the trunk and the extremities and examine whether the same effects occur with EFLe at submaximal exercise intensity, where the increase in expiratory pressures is milder. Our data show that during submaximal exercise, EFLe amplifies the respiratory pump mechanism, each breath producing greater blood displacements between the trunk and the extremities, with a prevailing effect from lower inspiratory intra-thoracic pressure progressively drawing blood into the trunk. These results help better understand the hemodynamic effects of respiratory pressures during submaximal exercise with expiratory flow restriction.

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Section: Discussionmentioning

confidence: 97%

Section: Computation Of Blood Shifts (Vbs)mentioning

confidence: 99%

Blood shifts between body compartments during submaximal exercise with induced expiratory flow limitation in healthy humans

Stucky

Uva

Kayser

et al. 2022

The Journal of Physiology

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“…Elegant physiologic experiments dating back to the 1950s have shown that the fall in ITP during normal inspiration produces a decrease in right atrial pressure and widens the pressure gradient from the peripheral venous circulation to the right atrium, thus augmenting venous return (28). With the RC breathing maneuver specifically, this seems to be the dominant mechanism, with more recent data confirming that deepening the inspiratory fall in ITP with RC breathing at rest augments femoral venous return (21) and results in greater intra-breath blood displacements between the trunk and the extremities during moderate exercise (23,25). With AB in turn, in addition to this ITP-driven increase in the venous pressure gradient, the inspiratory descent of the diaphragm may also contribute to augmented venous return via the consequent increase in IAP (29)(30)(31).…”

Section: Acute Cardiac Responses To Respiratory Maneuversmentioning

confidence: 98%

“…Previous experimental results suggested that voluntary amplification of the respiratory pump with AB and RC modulates femoral venous blood flow (21) and enhances blood displacements between the extremities and the trunk (22,23,25), indicating a potential for respiratory maneuvers to increase venous return. However, methodological constraints could not evaluate the impact of these interventions on cardiac function per se.…”

Section: Acute Cardiac Responses To Respiratory Maneuversmentioning

confidence: 99%

“…The increase in Q p immediately following exercise onset results from the integration of several processes including augmentation of venous return via respiratory-driven changes in intrathoracic (ITP) and intra-abdominal pressure (IAP) (21,22). Results from studies using deliberate modulations of the "respiratory pump" by maneuvers indicate that abdominal (AB) and rib cage (RC) breathing can increase venous return (22)(23)(24)(25) leading to greater alveolar O 2 transfer during the cardiodynamic phase of exercise (23). Accordingly, voluntary modulation of respiratory mechanics may increase venous return, increase Q p, and thus enhance pulmonary V O 2 but not locomotory muscle V O 2 .…”

Section: Introductionmentioning

confidence: 99%

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Priming cardiac function with voluntary respiratory maneuvers and effect on early exercise oxygen uptake

Stucky

Churchill

et al. 2022

Journal of Applied Physiology

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Oxygen uptake (V'O2) at exercise onset is determined in part by acceleration of pulmonary blood flow (Q'p). Impairments in the Q'p response can decrease exercise tolerance. Prior research has shown that voluntary respiratory maneuvers can augment venous return, but the corollary impacts on cardiac function, Q'p and early-exercise V'O2 remain uncertain. We examined a) the cardiovascular effects of 3 distinct respiratory maneuvers (abdominal, AB; rib cage, RC and deep breathing, DB) under resting conditions in healthy subjects (Protocol 1, n=13) and b) the impact of pre-exercise DB on pulmonary O2 transfer during initiation of moderate intensity exercise (Protocol 2, n=8). In Protocol 1, echocardiographic analysis showed increased RV and LV cardiac output (RVCO and LVCO, respectively) following AB (by +23±13 and +18±15%, respectively, P<0.05), RC (+23±16; +14±15%, P<0.05) and DB (+27±21; +23±14%, P<0.05). In Protocol 2, DB performed for 12 breaths produced a pre-exercise increase in V'O2 (+801±254 ml·min-1 over ~ 6 s), presumably from increased Q'p followed by a reduction in pulmonary O2 transfer during early phase exercise (first 20 s) compared to the control condition (149±51 vs 233±65 ml, P<0.05). We conclude that (1) respiratory maneuvers enhance RVCO and LVCO in healthy subjects under resting conditions, (2) AB, RC and DB have similar effects on RVCO and LVCO, and (3) DB can increase Q'p prior to exercise onset. These findings suggest that pre-exercise respiratory maneuvers may represent a promising strategy to prime V'O2 kinetics and thereby to potentially improve exercise tolerance in patients with impaired cardiac function.

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Influence of the fitting window on the O₂ uptake kinetics at the onset of moderate intensity exercise

Francescato

Cettolo

2021

Journal of Applied Physiology

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The O2 uptake (V'O2) data at the onset of an exercise are usually fitted with a mono-exponential function, after removal of the data pertaining to a conventional initial time period (ΔTr) lasting ~20s. We performed a thorough quantitative analysis on the effects of removing data pertaining to different ΔTr, aiming at identifying an objective method to establish the appropriate ΔTr. Breath-by-breath O2 uptake responses, acquired on 25 healthy adults performing a step moderate-intensity exercise, and 104 simulated bi-exponential responses, were analyzed. For all the responses, the kinetic parameters of a mono-exponential function, and the corresponding Asymptotic Standard Errors (ASE), were estimated by non-linear regression, removing the data pertaining to progressively longer initial periods (1s each) up to 60s. Four methods to establish objectively ΔTr were compared. The minimum estimated tau was obtained for ΔTr≅35s in both the V'O2 and simulated data, that was about 30% lower compared to that obtained for ΔTr≅0s. The average ASE values remained quite constant up to ΔTr≅35s, thereafter they increased remarkably. The tau used to generate the simulated response fell within the confidence intervals of the estimated tau in ~85% of cases for ΔTr=20s ("20s-w" method); this percentage increased to ~92% of cases when ΔTr was established according to both the minimum tau and its narrowest confidence interval ("Mixed" method). In conclusion, the effects of removing the V'O2 data pertaining to different ΔTr are remarkable. The "Mixed" method provided estimated parameters close to those used to generate the simulated responses and is thus endorsed.

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Priming the cardiodynamic phase of pulmonary oxygen uptake through voluntary modulations of the respiratory pump at the onset of exercise

Cited by 4 publications

References 41 publications

Blood shifts between body compartments during submaximal exercise with induced expiratory flow limitation in healthy humans

Blood shifts between body compartments during submaximal exercise with induced expiratory flow limitation in healthy humans

Priming cardiac function with voluntary respiratory maneuvers and effect on early exercise oxygen uptake

Influence of the fitting window on the O₂ uptake kinetics at the onset of moderate intensity exercise

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Priming the cardiodynamic phase of pulmonary oxygen uptake through voluntary modulations of the respiratory pump at the onset of exercise

Cited by 4 publications

References 41 publications

Blood shifts between body compartments during submaximal exercise with induced expiratory flow limitation in healthy humans

Blood shifts between body compartments during submaximal exercise with induced expiratory flow limitation in healthy humans

Priming cardiac function with voluntary respiratory maneuvers and effect on early exercise oxygen uptake

Influence of the fitting window on the O2 uptake kinetics at the onset of moderate intensity exercise

Contact Info

Product

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Influence of the fitting window on the O₂ uptake kinetics at the onset of moderate intensity exercise