Login / Signup

The effects of age on dyspnea and respiratory mechanical and neural responses to exercise in healthy men.

William MacAskillBen HoffmanMichael A JohnsonGraham R SharpeJoshua RandsShoena E WotherspoonYaroslav GevorkovTracy L Kolbe-AlexanderDean E Mills
Published in: Physiological reports (2023)
The respiratory muscle pressure generation and inspiratory and expiratory neuromuscular recruitment patterns in younger and older men were compared during exercise, alongside descriptors of dyspnea. Healthy younger (n = 8, 28 ± 5 years) and older (n = 8, 68 ± 4 years) men completed a maximal incremental cycling test. Esophageal, gastric (P ga ) and transdiaphragmatic pressures, and electromyography (EMG) of the crural diaphragm were measured using a micro-transducer and EMG catheter. EMG of the parasternal intercostals, sternocleidomastoids, and rectus abdominis were measured using skin surface electrodes. After the exercise test, participants completed a questionnaire to evaluate descriptors of dyspnea. P ga at end-expiration, P ga expiratory tidal swings, and the gastric pressure-time product (PTP ga ) at absolute and relative minute ventilation were higher (p < 0.05) for older compared to younger men. There were no differences in EMG responses between older and younger men. Younger men were more likely to report shallow breathing (p = 0.005) than older men. Our findings showed younger and older men had similar respiratory neuromuscular activation patterns and reported different dyspnea descriptors, and that older men had greater expiratory muscle pressure generation during exercise. Greater expiratory muscle pressures in older men may be due to compensatory mechanisms designed to offset increasing airway resistance due to aging. These results may have implications for exercise-induced expiratory muscle fatigue in older men.
Keyphrases
  • middle aged
  • physical activity
  • community dwelling
  • pet ct
  • mechanical ventilation
  • high intensity
  • intensive care unit
  • resistance training
  • gold nanoparticles