Knowledge on the effects of the additive bronchodilatory effects of short-acting agents on the top of the effect of long-acting bronchodilators is limited. In this trial, we examined the influence of higher than conventional doses of the short-acting inhaled beta(2)-adrenergic agent salbutamol and the short-acting anticholinergic drug ipratropium bromide on bronchodilation induced by a regular treatment with the long-acting anticholinergic drug tiotropium 18 mu g/day in 30 patients with stable COPD. On 3 separate days, a dose-response curve to inhaled salbutamol (100 mu g puff-1), ipratropium bromide (20 mu g puff-1) or placebo was constructed 3 h after inhalation of the last dose of tiotropium, using one puff, one puff, two puffs and two puffs, for a total cumulative dose of 600 mu g salbutamol or 120 mu g ipratropium bromide. Doses were given at 30-min intervals and measurements made 15 min after each dose. At the highest cumulative dose, salbutamol showed a trend to be more effective than ipratropium bromide in improving FEV1 (0.157 L vs 0.125 L), and reducing sRaw (-4.52 kPa/s vs 3.57 kPa/s), although the differences between the two treatments were always not significant (p > 0.05), whereas there was no substantial difference between the two drugs in changing FVC (0.179 L vs 0.168 L), IC (0.254 L vs 0.240 L), TGV (-0.444 L vs -0.441 L), TLC (-0.334 L vs -0.318 L) and RV (-0.467 L vs -0.498 L). Both drugs did not affect heart rate and SpO(2). Our results indicate that there is not much difference in bronchodilation between adding higher than conventional doses of salbutamol or ipratropium bromide to tiotropium in patients with stable COPD. Effective improvement of the pulmonary function may be achieved in such a type of patients by adding salbutamol 600 mu g or ipratropium bromide 120 mu g to regular tiotropium. These is an interesting finding mainly for those COPD patients suffering from cardiovascular co-morbidities that are at highest risk of myocardial infarction, congestive heart failure, cardiac arrest and sudden cardiac death when treated with elevated doses of a beta(2)-agonist (EudraCT number: 2007001597-82)
Cazzola, M., Santus, P., D'Adda, A., Pizzolato, S., Di Marco, F., Centanni, S. (2009). Acute effects of higher than standard doses of salbutamol and ipratropium on tiotropium-induced bronchodilation in patients with stable COPD. PULMONARY PHARMACOLOGY & THERAPEUTICS, 22(3), 177-182 [10.1016/j.pupt.2008.10.010].
Acute effects of higher than standard doses of salbutamol and ipratropium on tiotropium-induced bronchodilation in patients with stable COPD
CAZZOLA, MARIO;
2009-01-01
Abstract
Knowledge on the effects of the additive bronchodilatory effects of short-acting agents on the top of the effect of long-acting bronchodilators is limited. In this trial, we examined the influence of higher than conventional doses of the short-acting inhaled beta(2)-adrenergic agent salbutamol and the short-acting anticholinergic drug ipratropium bromide on bronchodilation induced by a regular treatment with the long-acting anticholinergic drug tiotropium 18 mu g/day in 30 patients with stable COPD. On 3 separate days, a dose-response curve to inhaled salbutamol (100 mu g puff-1), ipratropium bromide (20 mu g puff-1) or placebo was constructed 3 h after inhalation of the last dose of tiotropium, using one puff, one puff, two puffs and two puffs, for a total cumulative dose of 600 mu g salbutamol or 120 mu g ipratropium bromide. Doses were given at 30-min intervals and measurements made 15 min after each dose. At the highest cumulative dose, salbutamol showed a trend to be more effective than ipratropium bromide in improving FEV1 (0.157 L vs 0.125 L), and reducing sRaw (-4.52 kPa/s vs 3.57 kPa/s), although the differences between the two treatments were always not significant (p > 0.05), whereas there was no substantial difference between the two drugs in changing FVC (0.179 L vs 0.168 L), IC (0.254 L vs 0.240 L), TGV (-0.444 L vs -0.441 L), TLC (-0.334 L vs -0.318 L) and RV (-0.467 L vs -0.498 L). Both drugs did not affect heart rate and SpO(2). Our results indicate that there is not much difference in bronchodilation between adding higher than conventional doses of salbutamol or ipratropium bromide to tiotropium in patients with stable COPD. Effective improvement of the pulmonary function may be achieved in such a type of patients by adding salbutamol 600 mu g or ipratropium bromide 120 mu g to regular tiotropium. These is an interesting finding mainly for those COPD patients suffering from cardiovascular co-morbidities that are at highest risk of myocardial infarction, congestive heart failure, cardiac arrest and sudden cardiac death when treated with elevated doses of a beta(2)-agonist (EudraCT number: 2007001597-82)I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.