The hyperpnoea of exercise in health: Respiratory influences on neurovascular control

Sheel, A. William; Taylor, Joshua Landen; Katayama, Keisho

doi:10.1113/ep088103

Cited by 7 publications

(9 citation statements)

References 30 publications

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“…The intercostals, parasternals, scalenes, and neck muscles contribute to ventilation at high intensities by moderating EILV and airway caliber (e.g., dilation and inflammation). Altogether, the diaphragm and associated ventilatory pump musculature are remarkably efficient [~3%–5% total O 2 consumption (VO 2 )] and fatigue-resistant at submaximal intensities ( Welch et al, 2019 ; Sheel et al, 2020 ).…”

Section: Respiration During Exercisementioning

confidence: 99%

“…Flow limitation could lead to “breath stacking,” a negative consequence when subsequent breaths have slightly larger inspiratory than expiratory flow ( Ward, 2007 ). Breath stacking causes EILV and EELV to progressively increase, leading to dynamic hyperinflation ( Figure 3 ; Sheel et al, 2020 ). At these higher LOV, the lungs are stiffer, less compliant, and require more muscle work to expand ( Sheel et al, 2020 ).…”

Section: Respiration During Exercisementioning

confidence: 99%

“…Breath stacking causes EILV and EELV to progressively increase, leading to dynamic hyperinflation ( Figure 3 ; Sheel et al, 2020 ). At these higher LOV, the lungs are stiffer, less compliant, and require more muscle work to expand ( Sheel et al, 2020 ). Unfortunately, dynamic hyperinflation places the diaphragm in a suboptimal length for expanding the lungs and managing intrathoracic pressures, further fatiguing the ventilatory musculature ( Aliverti, 2016 ).…”

Section: Respiration During Exercisementioning

confidence: 99%

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Breath Tools: A Synthesis of Evidence-Based Breathing Strategies to Enhance Human Running

et al. 2022

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Running is among the most popular sporting hobbies and often chosen specifically for intrinsic psychological benefits. However, up to 40% of runners may experience exercise-induced dyspnoea as a result of cascading physiological phenomena, possibly causing negative psychological states or barriers to participation. Breathing techniques such as slow, deep breathing have proven benefits at rest, but it is unclear if they can be used during exercise to address respiratory limitations or improve performance. While direct experimental evidence is limited, diverse findings from exercise physiology and sports science combined with anecdotal knowledge from Yoga, meditation, and breathwork suggest that many aspects of breathing could be improved via purposeful strategies. Hence, we sought to synthesize these disparate sources to create a new theoretical framework called “Breath Tools” proposing breathing strategies for use during running to improve tolerance, performance, and lower barriers to long-term enjoyment.

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Section: Respiration During Exercisementioning

confidence: 99%

Section: Respiration During Exercisementioning

confidence: 99%

Section: Respiration During Exercisementioning

confidence: 99%

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Breath Tools: A Synthesis of Evidence-Based Breathing Strategies to Enhance Human Running

et al. 2022

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“…Furthermore, a series of studies revealed increased sympathetic vasomotor outflow and reduced resting limb blood flow in association with respiratory muscle work (Derchak et al, 2002;Sheel et al, 2001Sheel et al, , 2002St Croix et al, 2000). Based on these data, it is obvious that increased work of breathing leads to metabolite accumulation within the respiratory muscle (i.e., respiratory muscle-induced metaboreflex), which affects the distribution of limb blood flow (Dempsey et al, 2006;Sheel et al, 2020).…”

Section: Influence Of Respiratory Muscle-induced Metaboreflex On Coel...mentioning

confidence: 99%

Blood pressure and coeliac artery blood flow responses during increased inspiratory muscle work in healthy males

Shiozawa

Kashima

Mizuno

et al. 2022

Experimental Physiology

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The purpose of this study was to clarify the effect of increasing inspiratory muscle work on coeliac artery blood flow. Eleven healthy young males completed the study. The subjects performed voluntary hyperventilation with or without inspiratory resistance (loading or non-loading trial; tidal volume of 40% of vital capacity and breathing frequency of 20 breaths/min). The loading trial was conducted with inspiratory resistance (40% of maximal inspiratory pressure) and was terminated when the subjects could no longer maintain the target tidal volume or breathing frequency.The non-loading trial was conducted without inspiratory resistance and was of the same duration as the loading trial. Arterial blood pressure was recorded using finger photoplethysmography, and coeliac artery blood flow was measured using Doppler ultrasound. Mean arterial blood pressure increased gradually during the loading trial (mean ± SD; from 89.0 ± 10.8 to 103.9 ± 17.3 mmHg) but not in the non-loading trial (from 88.7 ± 5.9 to 90.4 ± 9.9 mmHg). Coeliac artery blood flow and coeliac vascular conductance decreased gradually during the loading trial (from 601.2 ± 155.7 to 482.6 ± 149.5 mL/min and from 6.9 ± 2.2 to 4.8 ± 1.7 mL/min/mmHg, respectively) but were unchanged in the non-loading trial (from 630.7 ± 157.1 to 635.6 ± 195.7 mL/min and from 7.1 ± 1.8 to 7.2 ± 2.9 mL/min/mmHg, respectively). These results show that increasing inspiratory muscle work affects splanchnic blood flow regulation, and we suggest that this might be mediated by the inspiratory muscle-induced metaboreflex.

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“…In their report, Sheel, Taylor, and Katayama (2020) emphasise recent findings in healthy humans that show a significant influence of sympathetic vasoconstrictor activity, mediated by both respiratory and locomotor muscle metaboreceptors during intense endurance exercise, on the constraint of blood flow and O 2 transport to both sets of muscles. Experimentally increasing the work of breathing was found to elicit reductions in blood flow to inactive and active limb muscles during submaximal exercise, but only if the work of breathing was of a sufficient magnitude.…”

mentioning

confidence: 98%

Respiratory influences on oxygen transport and exercise performance in health and disease

Romer

2020

Experimental Physiology

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The hyperpnoea of exercise in health: Respiratory influences on neurovascular control

Cited by 7 publications

References 30 publications

Breath Tools: A Synthesis of Evidence-Based Breathing Strategies to Enhance Human Running

Breath Tools: A Synthesis of Evidence-Based Breathing Strategies to Enhance Human Running

Blood pressure and coeliac artery blood flow responses during increased inspiratory muscle work in healthy males

Respiratory influences on oxygen transport and exercise performance in health and disease

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