Abstract
ObjectiveCardiovascular adjustments to exercise, including increases in blood pressure (MAP) and heart rate, occur in response to several neural mechanisms. Specifically, stimulation of respiratory (via inspiratory loading (IL)) and locomotor muscle (via subsystolic cuff inflation (CUFF)) neurologic feedback via group III/IV afferents augments the MAP response during exercise. Further, we have recently shown that simultaneous stimulation of the respiratory and locomotor muscle afferents during exercise potentiates the MAP increase compared to when these reflexes are stimulated individually. To date, interventional strategies to attenuate the augmented MAP during IL+CUFF have not been investigated. Previous studies have shown that inspiratory muscle training (IMT) attenuates the IL‐induced increase in MAP at rest in healthy adults. We hypothesized that 8 weeks of IMT will attenuate the IL+CUFF‐induced increase in MAP during exercise in healthy adults.MethodsTwenty adults were recruited and randomized to the IMT (n=10) or sham group (n=10). Participants performed 8 weeks of IMT twice a day, 7 days a week at 50% (IMT) or 10% (sham) maximum inspiratory pressure (MIP). On separate visits, participants performed an incremental cycling test to volitional fatigue and a 10 min cycling exercise bout at 40% maximal oxygen uptake Pre‐ and Post‐IMT. The exercise bout consisted of 5 min of spontaneous breathing followed by 5 min of voluntary hyperventilation (i.e. breathing frequency of 40 breaths per min) with IL (30% MIP) and bilateral locomotor subsystolic cuff inflation (80 mmHg). Systolic and diastolic blood pressure (SBP and DBP, respectively) were measured using manual sphygmomanometry and MAP was calculated. SBP and MAP were reported as the change from rest. Dyspnea was measured via Borg scale (1–10).ResultsAfter 8 weeks, MIP increased in the IMT (Pre: 99±26 vs. Post: 127±26 cmH2O, p<0.05), but not the sham group (Pre: 126±29 vs. Post: 129±28 cmH2O, p>0.05). Pre‐IMT, the increase in MAP with IL+CUFF was not different between groups (IMT: 28±6 vs. sham: 31±7 mmHg) (p>0.05). Post‐IMT, the increase in MAP with IL+CUFF was attenuated in IMT, but not sham (IMT: 23±7 vs. sham: 32±5 mmHg) (p<0.05). Pre‐IMT, the increase in SBP with IL+CUFF was not different between groups (IMT: 49±12 vs. sham: 53±16 mmHg) (p>0.05). Post‐IMT, the increase in SBP with IL+CUFF was attenuated in IMT, but not sham (IMT: 42±12 vs. sham: 57±14 mmHg) (both, p<0.05). The increase in DBP with IL+CUFF was not different between groups Pre or Post‐IMT (both, p>0.05). Lastly, dyspnea was not different Pre‐IMT between groups (IMT: 4±3 vs. sham: 4±2 Borg (1–10)) (p>0.05), but was lower in the IMT, but not sham Post‐IMT (IMT: 2±2 vs. sham: 4±1 Borg (1–10)) (p<0.05).ConclusionsThese data demonstrate that IMT attenuates the MAP response when the respiratory and locomotor afferents are stimulated simultaneously. These findings have important clinical implications for populations that exhibit exaggerated respiratory and locomotor muscle reflexes during exercise.Support or Funding InformationThis work was supported by the National Institutes of Health [HL126638 to TPO] and American Heart Association [18POST3990251 to JRS].
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