AI Article Synopsis
- In COPD patients, tachypnea (rapid breathing) can lead to dynamic hyperinflation by reducing the time available for exhalation, affecting lung capacity.
- A study involving 14 stable COPD patients measured inspiratory capacity (IC) while they paced their breathing at different rates (20, 30, and 40 breaths per minute) using a metronome.
- Results showed significant reductions in IC after just 30 seconds of tachypnea, indicating that dynamic hyperinflation develops quickly and consistently, suggesting this method could help assess the condition in COPD patients effectively.
Article Abstract
In COPD patients, tachypnea should increase (dynamic) hyperinflation by shortening expiratory time. We developed a method to evaluate the time course and degree of dynamic hyperinflation during metronome-paced tachypnea. Fourteen patients with stable COPD (FEV(1) 43 +/- 13% predicted) were studied. Inspiratory capacity (IC) was measured breathing through a flow transducer. Subjects paced their respiratory rate (f(R)) at 20/min, 30/min and 40/min for 60-second periods in response to audible tones generated by a computer. IC measurements were obtained at baseline and after 30 and 60 seconds at each f(R). End-tidal carbon dioxide was monitored and f(R) was allowed to return to baseline between periods of tachypnea. Tachypnea produced reductions in IC of 200 +/- 240 ml, 380 +/- 330 ml and 540 +/- 300 ml after 30 seconds at 20/min, 30/min and 40/min, respectively. IC reduction at 60 seconds was similar to 30 seconds for each f(R). In patients with moderate-to-severe COPD, the dynamic hyperinflation induced by metronome-paced tachypnea was shown to occur rapidly and be complete by 30 seconds for a given f(R). Controlled increments in f(R) produced stepwise increases in dynamic hyperinflation. This standardized method could be a useful and easier method of assessing dynamic hyperinflation in COPD patients before and after therapeutic interventions.
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| http://dx.doi.org/10.1080/15412550802363428 | DOI Listing |
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