Safety and tolerability of high-dose formoterol (via Aerolizer) and salbutamol in patients with chronic obstructive pulmonary disease

To evaluate the safety and tolerability of high-dose formoterol and salbutamol in patients with chronic obstructive pulmonary disease (COPD). In this two-way crossover, double-blind, double-dummy study, 17 adults with mild-to-moderate COPD were randomized to receive either formoterol 24 microg (2 x 12 microg via Aerolizer), or salbutamol 600 microg (6 x 100 microg via metered-dose inhaler), and the appropriate double-dummy q.i.d. at 4-h intervals for 3 consecutive days (total daily dose: 96 and 2400 microg, respectively). After a 4-7-day washout period, patients were switched to the other treatment. Treatment with high-dose formoterol and salbutamol was equally well tolerated, with no reports of serious adverse events. Both agents were associated with decreased plasma potassium (mean minimum values: 3.4 and 3.3 mmol/l for formoterol and salbutamol, respectively; P=0.914), increased serum glucose (mean maximum values: 9.0 and 8.7 mmol/l, respectively; P=0.373), and small increases in mean QTc interval (mean maximum 439 ms with both treatments; P=0.813). No clinically relevant between-treatment differences in adverse events or laboratory values occurred. Both drugs improved lung function (mean maximum forced expiratory volume in 1s [FEV(1)] 2.6 l with both treatments; P=0.624), with the improvement being significantly greater with formoterol than with salbutamol on all 3 days of treatment (mean area under the curve [AUC](0-24 h) of FEV(1) formoterol vs. salbutamol on days 1-3, all P<0.05). High-dose formoterol via Aerolizer (up to 96 microg/day) has a comparable tolerability profile to that of salbutamol in patients with mild-to-moderate COPD.     

Formoterol (OXIS) Turbuhaler as a rescue therapy compared with salbutamol pMDI plus spacer in patients with acute severe asthma

Formoterol has a similar onset of effect to salbutamol but a prolonged duration of action. However, the relative efficacy of the two drugs in acute severe asthma is not known. This double-blind, double-dummy study compared the safety and efficacy of the maximum recommended daily dose of formoterol and a predicted equivalent dose of salbutamol in 88 patients presenting to the emergency department with acute severe asthma. Patients were randomized to formoterol 54 microg via Turbuhaler or salbutamol 2400 microg via pressurized metered dose inhaler (pMDI) plus spacer in three equal doses over 1 h. Following the full dose, mean FEV1 at 75 min increased by 37% for formoterol and 28% for salbutamol (P = 0.18). The maximum increase in FEV1 over 4 h was significantly greater with formoterol compared with salbutamol (51% vs. 36%, respectively P < 0.05) and formoterol was as effective as salbutamol at improving symptoms and wellbeing. Both treatments were well tolerated. Formoterol caused a greater decrease in serum potassium (difference -0.2 mmol/l). In severe acute asthma, bronchodilator therapy with high-dose (54 microg) formoterol Turbuhaler provided equally rapid improvements in lung function of greater magnitude over 4 h than high-dose (2400 microg) salbutamol pMDI plus spacer.     

Rapid onset of bronchodilation in COPD: a placebo-controlled study comparing formoterol (Foradil Aerolizer) with salbutamol (Ventodisk)

Formoterol fumarate is a beta2-agonist bronchodilator that combines a fast onset of action with a long duration of action. Its fast onset of action is well documented in asthma but has not been directly compared with that of salbutamol in patients with chronic obstructive pulmonary disease (COPD). This randomized, double-blind, placebo-controlled study was conducted to assess the bronchodilatory effects over the first 3 h after inhalation of single doses of formoterol 24 microg delivered via the Aerolizer dry powder inhaler device (double-blind), or salbutamol 400 microg delivered by a Diskhaler dry powder inhaler (single-blind) in patients with COPD. A total of 24 patients with COPD were randomized [mean age 61.6 +/- 7.8 years, mean forced expiratory volume in 1 sec (FEV1) 1.38 +/- 0.32 l and 45.8 +/- 9.6% of predicted]. Inhalation of formoterol or salbutamol resulted in similar increases in FEV from 0 to 3 h post-dose. Both drugs produced similar bronchodilation by 5 min, which became almost maximal by 30 min. The primary efficacy variable, the area under the curve (AUC) of the FEV increase above predose baseline from 0 to 30 min (AUC(0-30 min)), demonstrated significant effects for formoterol (mean 5.89 +/- 4.67 l min(-1)), and salbutamol (mean 6.06 +/- 4.34 l min(-1)), which were not statistically different from each other but statistically significantly higher (P<0.0001) than that observed with placebo (-0.32 +/- 2.59 l min(-1)). In addition, both formoterol and salbutamol produced similar and rapid increases in forced vital capacity (FVC). In summary, this study confirms the rapid onset of action of formoterol and indicates that the onset of action of formoterol and salbutamol are similar in patients with COPD.     

Comparable efficacy and tolerability of formoterol (Foradil) administered via a novel multi-dose dry powder inhaler (Certihaler) or the Aerolizer dry powder inhaler in patients with persistent asthma

BACKGROUND: For maximum treatment compliance there is a need to provide asthma patients with devices that suit their particular preferences. The Foradil Certihaler is a novel multi-dose dry powder inhaler developed to increase the choice of devices available. OBJECTIVES: To evaluate the safety and efficacy of formoterol administered via the Foradil Certihaler, or via the single-dose inhaler Foradil Aerolizer. METHODS: This was a randomized, placebo-controlled, double-dummy, incomplete block crossover, dose-ranging and pharmacokinetic study in patients with persistent asthma. Sixty-seven patients (mean 48.0 years) were randomized to formoterol 5, 10, 15 and 30 microg twice daily via the Certihaler, 12 microg formoterol b.i.d. via the Aerolizer, or placebo in four 1-week double-blind treatment periods separated by 1-week single-blind washouts. RESULTS All formoterol doses delivered via the Certihaler or the Aerolizer significantly increased FEV(1) compared with placebo (p < 0.0001). Formoterol demonstrated an onset of action of <3 min. All active treatments were well tolerated. Tremor was the most common adverse event and was more pronounced at high doses. At lower doses the incidence of tremor with the Certihaler was similar to that observed with placebo or the Aerolizer. The pharmacokinetic evaluation comprised 41 patients (mean 45.9 years). Urinary excretion of unchanged formoterol and total formoterol increased with dose delivered via the Certihaler. The optimum dose of formoterol via the Certihaler was 10 microg. Conclusion: Delivery of formoterol via the Certihaler or Aerolizer combines rapid relief with enduring control and provides convenient bronchodilation in patients with persistent asthma.     

Efficacy and safety of formoterol delivered through the Novolizer, a novel dry powder inhaler (DPI) compared with a standard DPI in patients with moderate to severe asthma

BACKGROUND & OBJECTIVE: Because of environmental concerns CFC-containing pressurised metered dose inhalers (pMDI) had to be replaced by dry powder inhalers (DPI). The Novolizer, a novel DPI has previously been shown to be as effective as the Turbuhaler in delivering budesonide. The objective of this study was to show non-inferiority of inhaled formoterol therapy delivered through the Novolizer compared to formoterol delivered through the Aerolizer in patients suffering from moderate to severe asthma. METHODS: In this double-blind, double-dummy, multicentre study 392 patients were randomised and received a dose of 12 microg formoterol twice daily for 4 weeks either through the Aerolizer or the Novolizer. FEV1 after 4 weeks of treatment was the primary variable. Secondary variables were FVC, PEF, consumption of short-acting; 2 adrenoceptor agonists, asthma symptoms, tolerability and safety. RESULTS: After 4 weeks of treatment, the mean trough FEV1 (95% CI) was 2.34 L (2.24-2.45) for the Novolizer and 2.31 L (2.21-2.41) for the Aerolizer. Non-inferiority was proven (p<0.0001, pre-defined; of 0.25 L). All secondary variables (incl. PEF) confirmed these findings. Treatment with both devices was safe and well tolerated. CONCLUSION: Inhalation of 12 microg formoterol twice daily via Novolizer was shown to be equally therapeutically effective compared to the inhalation via Aerolizer in the treatment of moderate to severe persistent asthma. Treatment via both inhalers was safe and well tolerated.     

Total reversibility testing as indicator of the clinical efficacy of formoterol in COPD

RATIONALE: The Global Initiative for Chronic Obstructive Lung Disease guidelines recommend bronchodilator reversibility testing to guide treatment decisions. This study evaluated the relationship between the change in forced expiratory volume in 1 s (FEV1) with salbutamol or formoterol and the clinical effects of a 4-week formoterol (Foradil) treatment. METHODS: At Visit 1, patients (n = 448) with stable chronic obstructive pulmonary disease took an FEV1 reversibility test using 200 microg salbutamol via a metered dose inhaler. At Visit 2 (Day 0), an FEV1 reversibility test was performed using formoterol via a dry-powder inhaler (Aerolizer). Patients then received formoterol 12 microg twice daily until Visit 3 (Day 21-30), when a further formoterol FEV1 reversibility test was performed. Clinical parameters included FEV1, symptom questionnaires and rescue medication use. RESULTS: There was no significant relationship between the immediate change in FEV1 with salbutamol and the absolute change from baseline in FEV1, symptom scores or rescue medication use after a 4-week formoterol treatment. Relative immediate change in FEV1 with formoterol was correlated with change in rescue medication use (P = 0.02) and FEV1 at Visit 3 (P < 0.001). Total reversibility in FEV1 with formoterol (post-dose Visit 3-pre-dose Visit 2) was correlated with all treatment efficacy variables (P<0.01). CONCLUSIONS: Immediate salbutamol reversibility testing, as performed under these study conditions, failed to predict the clinical efficacy of formoterol. Total reversibility after 4 weeks of formoterol treatment may be a better predictor of clinical benefits of long-term bronchodilator therapy.     

Long duration of airway but not systemic effects of inhaled formoterol in asthmatic patients

RATIONALE: Formoterol is approved as asthma rescue medication in many countries. The exact duration of the airway vs. systemic effects of formoterol compared with another rescue medication, salbutamol, has not been evaluated. OBJECTIVE: To assess the duration of airway bronchodilatory effects vs. systemic effects of inhaled formoterol and salbutamol in asthmatic patients. METHODS: Twenty-six patients with stable and reversible asthma were given single doses of formoterol dry-powder inhaler (OxisTurbuhaler) 2x9 microg (lower dose; LD) and 6x9 microg (higher dose; HD), salbutamol (VentolinDiskhaler) 3x400 microg (LD) and 9x400 microg (HD), and placebo in a randomized, double-blind, crossover trial. Airway and systemic effects were assessed by forced expiratory volume in 1s (FEV1), serum potassium, blood pressure, corrected QT-interval (QTc), and palpitation and tremor scores. Time with clinically relevant bronchodilation (FEV1 increase 12%) without clinically relevant markers of systemic effects (serum potassium suppression 0.2 mmol/L, QTc-prolongation 20 ms, or heart rate increase 8 beats per minute) was evaluated. RESULTS: Bronchodilation was maintained for 24h with both formoterol doses and for 7-11h with salbutamol. Maximum bronchodilation and systemic effects were similar after formoterol and salbutamol, except for statistically significantly larger maximum heart rate and palpitation and tremor scores after salbutamol. Systemic responses were similarly brief for formoterol and salbutamol (7 h). CONCLUSIONS: The airway effects of inhaled formoterol are of long duration, whereas the systemic effects are of a similarly short duration as salbutamol. Thus, the time with clinically relevant bronchodilation without systemic effects is substantially longer after formoterol than after salbutamol.     

Efficacy and safety of budesonide/formoterol compared with salbutamol in the treatment of acute asthma

This study compared the efficacy and safety of budesonide/formoterol (Symbicort) Turbuhaler)) with salbutamol pressurized metered-dose inhaler (pMDI) with spacer for relief of acute bronchoconstriction in patients with asthma. In this randomized, double-blind, parallel-group study, patients (n = 104 allocated to treatment; n = 103 received treatment; mean age 45 years) seeking medical attention for acute asthma (mean FEV(1) 43% of predicted) received two doses repeated at t = -5 and 0 min of either budesonide/formoterol (320/9 microg, two inhalations) or salbutamol (100 microg x eight inhalations); total doses 1280/36 microg and 1600 microg, respectively. All patients received prednisolone 60 mg at 90 min and FEV(1) was assessed over 3h. FEV(1) 90 min after dosing (primary variable) increased compared with pre-dose FEV(1) by an average of 30% and 32% for budesonide/formoterol and salbutamol, respectively (P = 0.66), with similar increases at all timepoints from 3 to 180 min for both groups. Mean pulse rate over 3h was significantly higher in the salbutamol group versus the budesonide/formoterol group (92 vs. 88 bpm; P < 0.01). No treatment differences were seen for other vital signs, including ECG. High-dose budesonide/formoterol was effective and well tolerated for the treatment of acute asthma, with rapid onset of efficacy and a safety profile over 3h similar to high-dose salbutamol.     

Single-dose comparison of formoterol (Oxis) Turbuhaler 6 microg and formoterol Aerolizer 12 microg in moderate to severe asthma: a randomised,crossover study

Formoterol inhaled via Turbuhaler (Oxis) or Aerolizer (Foradil) produces fast and long-lasting bronchodilation in asthmatic patients. While formoterol Turbuhaler provides sustained efficacy for > or =12h at a metered dose of 6 microg (delivered dose 4.5 microg), the recommended metered dose for formoterol Aerolizer is 12 microg (delivered dose unknown). This difference may be attributable to improved lung deposition with the Turbuhaler. This open, randomised, crossover study compared the effects of a single metered dose of formoterol Turbuhaler 6 microg and formoterol Aerolizer 12 microg in 16 patients with stable moderate-to-severe asthma. Pulmonary function, assessed by measuring specific airway conductance (sGaw), was determined at intervals of < or =8h post-inhalation of each drug on separate study days. Both inhalers increased sGaw at all time points. There were no significant differences between the two formulations in onset of activity, maximum effect, duration of effect or area under the response curve. Furthermore, both treatments were well tolerated with no differences in adverse events, blood pressure or heart rate; thus the formoterol Turbuhaler may, therefore, have an improved therapeutic index. This pilot study indicates that the same clinical effect can be achieved with half the metered dose (6 microg) of formoterol Turbuhaler compared with formoterol Aerolizer (12 microg).     

Formoterol Turbuhaler as reliever medication in patients with acute asthma.

The aim of this study was to compare the efficacy and safety of formoterol versus salbutamol as reliever medication in patients presenting at an emergency dept with acute asthma. A randomised, double-blind, double-dummy, parallel group study was performed in four Australian emergency treatment centres. The study included a total of 78 adult patients (mean baseline forced expiratory volume in one second (FEV1) 1.83 L; 59% predicted) with acute asthma. Based on the expected dose equivalence of formoterol Turbuhaler 4.5 microg (delivered dose) and salbutamol pressurised metered-dose inhaler 200 microg (metered dose), patients received a total of formoterol Turbuhaler 36 microg (delivered) or salbutamol pressurised metered-dose inhaler with spacer 1,600 microg (metered), divided into two equal doses at 0 and 30 min. FEV1, peak expiratory flow and systemic beta2-agonist effects were monitored for 4 h. The primary variable was FEV1% pred at 45 min. At 45 min, mean increases in FEV1 expressed in % pred were 6.6% and 9.3%, respectively, with a small adjusted mean difference in favour of salbutamol (3.0%, 95% confidence interval -2.0-8.0). Transient increases in systemic beta2-agonist effects occurred predominantly with salbutamol, although no significant treatment differences were observed. Eight patients discontinued due to adverse events. In this study of patients presenting at emergency depts with acute asthma, formoterol Turbuhaler 36 microg was well tolerated and, as rescue therapy, had an efficacy that was not different from that of salbutamol pressurised metered-dose inhaler with spacer 1,600 microg in the number of patients studied.     

Clinically equivalent bronchodilatation achieved with formoterol delivered via Easyhaler and Aerolizer

BACKGROUND: User-friendly devices for the delivery of asthma drugs are needed to enhance treatment compliance. Formoterol inhalation powder has been developed to Easyhaler multidose powder inhaler to enable the treatment of all asthma severities with the same device. OBJECTIVES: This double-blind, double-dummy, single- dose, placebo-controlled, cross-over study aimed to demonstrate the non-inferiority of the bronchodilating effect of formoterol 12 microg delivered via Easyhaler versus via Aerolizer. In addition, dose responses following placebo, 12-microg and 48-microg doses of formoterol via Easyhaler were compared. Furthermore, onset and duration of action, and safety of formoterol inhaled using the two inhalers were compared. METHODS: Sixty-seven adult asthmatic subjects showing >or=15% increase in forced expiratory volume in 1 s (FEV(1)) after short-acting sympathomimetic inhalation were enrolled and completed the study. The study comprised screening and 4 treatment days, with each subject inhaling a single 12-mug dose of formoterol via Easyhaler, a 12-microg dose via Aerolizer, a 48-microg dose via Easyhaler or placebo. Repeat spirometry and vital sign measurements were performed for 12 h during treatment days. The primary efficacy variable was the area under the flow volume curve (AUC(0-12)) of FEV(1). Secondary efficacy variables comprised maximum FEV(1 )(FEV(1max)), forced vital capacity (FVC), and the need of rescue medication during the treatment days. Safety was evaluated by determining blood pressure, heart rate and the number of adverse events (AEs). RESULTS: Results showed the non-inferiority of the bronchodilating effect of 12 microg formoterol via Easyhaler compared to Aerolizer. The Easyhaler-Aerolizer ratio for AUC(0-12) of FEV(1 )was 0.991 (95% confidence interval from 0.969 to 1.013). No statistically significant differences emerged for secondary efficacy variables. A statistically significant dose response was seen following placebo, 12- and 48-microg doses in FEV(1). No safety differences emerged for the 12-microg dose inhaled via Easyhaler or Aerolizer, but the incidence of AEs was higher following formoterol 48 microg and placebo treatments. CONCLUSIONS: Formoterol delivered via Easyhaler was therapeutically equivalent to Aerolizerat the 12-microg dose. The 48-microg dose via Easyhaler demonstrated statistically significantly greater bronchodilation but showed an increased occurrence of AEs.     

Formoterol Turbuhaler 4.5 microg (delivered dose) has a rapid onset and 12-h duration of bronchodilation

Clinical trials show that formoterol (Oxis) Turbuhaler 4.5 microg delivered dose (6 microg metered dose) has a rapid onset of bronchodilation similar to that of salbutamol and a 12-h duration of action. Maximum increase in FEV(1) and duration of bronchodilation are dose-dependent, the 4.5 microg dose being the lowest dose tested giving both effects.Clinical studies investigating onset of bronchodilation show a significant increase in specific airway conductance occurring within 1 min after inhalation of formoterol Turbuhaler 4.5 microg. When measured from 3-20 min after inhalation, formoterol Turbuhaler 4.5 microg showed similar increases in FEV(1) to salbutamol administered via pMDI. No difference in onset of bronchodilation was observed between the formoterol Turbuhaler 4.5 and 9 microg doses.Single-dose studies and studies of 1-12 weeks' duration show that formoterol Turbuhaler 4.5 microg produces a significant and clinically important mean bronchodilating effect for > or =12 h after inhalation. In the cited studies no significant differences in duration of bronchodilation were observed between the formoterol Turbuhaler 4.5 and 9 microg doses.Conclusion: clinical data show that formoterol Turbuhaler 4.5 microg is an effective dose in patients with asthma, with a rapid onset of bronchodilation and a duration of at least 12 h.     

Comparison of the bronchodilating effects of inhaled formoterol,salmeterol and salbutamol in asthmatic patients

Ten subjects with various degrees of asthma severity underwent a three-day trial, with the aim of evaluating the bronchodilating effect of inhaled formoterol (12 micro g), in comparison with salbutamol (200 micro g) and salmeterol (50 micro g). The bronchodilation afforded by formoterol paralleled that of salbutamol in rapidity (mean percentage increases in functional measurements (FEV(1)) vs. baseline recorded 5 min after drug administration: 7.7%, 9.3%, and 0.3% for salbutamol, formoterol and salmeterol, respectively) and that of salmeterol in duration (mean percentage increases in FEV(1) vs. baseline recorded 12h after drug administration: 16.8% and 15.9% for formoterol and salmeterol, respectively). Moreover, the maximal effect of formoterol resulted to be slightly higher in comparison with salbutamol (P<0.001) and salmeterol (P<0.05); in this regard, the mean percentage increases in FEV(1) vs. baseline recorded 2h after salbutamol and formoterol, and 4h after salmeterol were 22.3%, 29.5%, and 24.6%, respectively. Therefore, these results suggest that formoterol can be used, in addition to its utilization as long-acting bronchodilator, also as an effective rescue medication for the immediate relief of asthma symptoms.     

Oxis (formoterol given by Turbuhaler) showed as rapid an onset of action as salbutamol given by a pMDI

Thirty-six adult patients (16 women) with mild to moderate asthma with a mean baseline forced expiratory volume in 1 sec (FEV1) of 73.8% (46-106%) of predicted normal value and mean reversibility of 24.2% (14.6-47.1%) were included in this double-blind, double-dummy, randomized, placebo-controlled and cross-over study. The patients inhaled single doses 4.5 or 9 microg of formoterol (Oxis) via Turbuhaler salbutamol (Ventolin) 100 or 200 microg from a pressurized metered dose inhaler (pMDI) or placebo at five randomized visits. Efficacy was measured by FEV1 pre-dose and then 1, 3, 5, 7, 10, 15, 20, 25 and 30 min after inhalation of the study drug. The primary variable of efficacy was the FEV1-value 3 min after dose intake. No statistically significant differences were found between active treatments. All active treatments gave a higher bronchodilating effect at 3 min than placebo: 10.0, 11.4% for salbutamol 100 and 200 microg and 11.7, 11.8% for formoterol 4.5 and 9 microg (P<0.001 in all cases). There was a correlation between the measured response at 3 min and the subjective experience of the patients. The relative difference vs. placebo remained throughout the study period for all active treatments except for low dose salbutamol. All treatments were well tolerated. In conclusion, formoterol Turbuhaler has as rapid an onset of action as salbutamol pMDI when given at recommended doses.     

Relief of dyspnoea by beta2-agonists after methacholine-induced bronchoconstriction

Virtually all asthma patients use brorichodilators. Formoterol and salbutamol have a rapid onset of bronchodilating effect, whereas salmeterol acts slower. We studied the onset of improvement of dyspnoea sensation after inhalation with these bronchodilators and placebo to reverse a methacholine-induced bronchoconstriction as a model for an acute asthma attack. Seventeen patients with asthma completed this randomised, double-blind, crossover, double-dummy study. On 4 test days, forced expiratory volume in 1 s (FEV1) and Borg score were recorded and patients were challenged with methacholine until FEV1 fell with > or = 30% of baseline value. Thereafter, formoterol 12 microg via Turbuhaler, salbutamol 50 microg via Turbuhaler, salmeterol 50 microg via Diskhaler, or placebo was inhaled. FEV1 and Borg scores were assessed during the following 60 min. The first sensed improvement of Borg score was significantly (P<0.05) faster achieved with formoterol (geometric mean (Gmean) (range) 1.5 (1-40) min) and salbutamol 1.8 (1-10) min than with salmeterol 4.5 (1-30) min and placebo 3.4 (1-40) min. The Borg score returned significantly faster to the baseline value with formoterol, salbutamol, and salmeterol (Gmean time 13.8 (1-75), 13.4 (1-60), and 18.0 (1-75) min, respectively) than with placebo (33.6 (1-75 min). Formoterol and salbutamol act significantly faster than salmeterol in relieving dyspnoea induced by methacholine-induced bronchoconstriction, in patients with asthma.     

Efficacy and safety of high-dose budesonide/formoterol (Symbicort) compared with budesonide administered either concomitantly with formoterol or alone in patients with persistent symptomatic asthma

OBJECTIVE AND BACKGROUND: Budesonide/formoterol 160/4.5 microg, two inhalations bd, is an effective and well-tolerated maintenance therapy for patients not controlled on inhaled corticosteroids alone. The authors assessed the efficacy and safety of a higher dose of budesonide/formoterol in patients with persistent symptomatic asthma. METHODS: This was a 24-week, double-blind, double-dummy randomized study. Budesonide/formoterol 320/9 microg, two inhalations bd (1280/36 microg/day), was compared with corresponding doses of budesonide during weeks 1-12 and budesonide plus formoterol via separate inhalers during weeks 1-24. Efficacy was assessed during weeks 1-12; the primary variable was morning PEF. Safety was assessed over weeks 1-24. RESULTS: Patients (n=456; aged 12-79 years) had a mean reversibility in FEV1 of 28% and mean pre-study inhaled corticosteroid dose of 1038 microg/day. Mean morning PEF increased by 37 L/min and 36 L/min with budesonide/formoterol and budesonide plus formoterol, respectively, versus an increase of 5 L/min with budesonide (P<0.001 for both vs. budesonide). Budesonide/formoterol increased time to first mild exacerbation (P<0.005) versus budesonide. Budesonide/formoterol and budesonide plus formoterol had similar efficacy. All treatments were well tolerated and the incidence of class-related adverse events was similarly low in all groups. Changes in serum potassium and plasma cortisol were comparable across treatments. CONCLUSIONS: High-dose budesonide/formoterol (320/9 microg, two inhalations bd) is effective and well tolerated in patients with persistent symptomatic asthma. The findings also support the safety of regular high-dose formoterol (36 microg/day).     

Safety of formoterol after cumulative dosing via Easyhaler and Aerolizer

This randomised, double-blind, double-dummy, cumulative dose, multicentre crossover study aimed to demonstrate non-inferiority in safety of formoterol delivered via Easyhaler versus Aerolizer. The secondary objective was to compare the efficacy of the devices. Thirty-three adult asthmatic subjects entered the study and 32 completed it. The study comprised screening and two study days, with each subject inhaling 96 microg (12, 12, 24 and 48 microg) cumulative dose of formoterol via the study inhalers. Serum potassium (S-K+), vital signs and spirometry were performed at baseline, 1h after each dose and additionally 4h after the last dose. The primary safety variable was S-K+. Secondary safety variables were heart rate, corrected QT interval, blood pressure, serum glucose and adverse events. Spirometry was assessed to evaluate efficacy. The results showed non-inferiority in safety of formoterol inhaled via Easyhaler compared to Aerolizer. The adjusted treatment difference in the S-K+ values after 96 microg cumulative dose of formoterol was 0.14 mmol/L being clearly above the pre-determined lower limit of the non-inferiority criterion of -0.2 mmol/L. There were dose-related changes in secondary efficacy variables after both treatments. The changes were comparable in most of the parameters but heart rate was statistically significantly higher and decrease in diastolic blood pressure greater after formoterol via Aerolizer than that via Easyhaler. The occurrence of adverse events was dose-related, the most common events being tremor, hypokalaemia, headache and palpitation. The spirometry results showed no statistically significant difference in efficacy between the treatments. In conclusion, formoterol delivered via Easyhaler was as safe as via Aerolizer.     

Relative therapeutic index between inhaled formoterol and salbutamol in asthma patients

A double-blind, randomized crossover study in 28 asthmatic patients assessed the relative therapeutic index for inhaled formoterol and salbutamol. Pre-drug administration FEV1 (mean 2.08 l) was 49-93% of predicted and reversibility 16-82% after inhalation of salbutamol. Patients inhaled single doses of formoterol (Oxis) (4.5,18 and 54 microg, delivered doses) via Turbuhaler, salbutamol (Ventolin) (200 and 1800 microg) via pressurized metered dose inhaler (pMDI) and placebo at intervals of 48 h or more. Individual maximum FEV1 and minimum S-K+ were calculated. Relative local (maximum FEV1) and systemic (minimum S-K+) dose potencies, and their ratio, the relative therapeutic index, were estimated using a non-linear mixed effect model. The drug effects were well tolerated and dose dependent. A log-linear approximation was used to describe the bronchodilatory effect, whereas a sigmoid approximation was more apt to describe the decrease in serum potassium concentration. A bivariate dose-response model based on these principles was fitted simultaneously to all data. The mean relative therapeutic index between formoterol 4.5-54 microg given via Turbuhaler and salbutamol 200-1800 microg given via pMDI was estimated to be 2.5 in favour of formoterol; this trend was not statistically significant.     

Once-daily dosing with budesonide/formoterol compared with twice-daily budesonide/formoterol and once-daily budesonide in adults with mild to moderate asthma

Adherence to maintenance therapy is often poor in patients with asthma. Simplifying dosing regimens has the potential to improve both adherence and asthma-related morbidity. In this 12-week, randomized, double-blind, double-dummy, parallel-group study, 617 patients with mild to moderate persistent asthma (mean forced expiratory volume in 1s [FEV1] 78.5% predicted) who were not optimally controlled on inhaled corticosteroids (200-500 microg/day) were randomized to once-daily budesonide/formoterol (80/4.5 microg, 2 inhalations in the evening), twice-daily budesonide/formoterol (80/4.5 microg, 1 inhalation), or a corresponding dose of budesonide once-daily (200 microg, 1 inhalation in the evening). All patients received budesonide (100 microg twice daily) during a 2-week run-in. Changes in mean morning peak expiratory flow (PEF) were similar for od budesonide/formoterol (23.4 l/min) and twice-daily budesonide/formoterol (24.1 l/min), and both were greater than with budesonide (5.5 l/min; both P<0.001). Evening PEF, symptom-free days, reliever-free days, and asthma control days were improved with budesonide/formoterol therapy vs. budesonide (P<0.05 vs. budesonide for all variables). All treatments were well tolerated. Budesonide/formoterol administered once daily in the evening is a convenient treatment regimen that is as effective in improving asthma control as twice-daily dosing in patients with mild to moderate persistent asthma.     

Bronchodilator response to formoterol Turbuhaler in patients with COPD under regular treatment with formoterol Turbuhaler

Formoterol Turbuhaler has been suggested for as-needed use in asthmatic patients. We investigated whether regular treatment with formoterol would modify the dose-response curves to formoterol in patients with partially reversible COPD. In this randomised, double-blind, cross-over study taking place over four non-consecutive days 16 outpatients with moderate to severe COPD, who were under regular treatment with formoterol Turbuhaler (18 microg in two daily doses) from at least 4 months, inhaled a conventional dose of formoterol Turbuhaler 9 microg or placebo. Two hours later, a FEV(1) value was established, following which a dose-response curve to formoterol (4.5 microg/inhalation) or placebo was constructed using four inhalations (1+1+2)--total cumulative delivered dose of 18 microg formoterol--with the following sequences: (1) formoterol pre-treatment + formoterol 18 microg, (2) formoterol pre-treatment + placebo, (3) placebo pre-treatment + formoterol 18 microg, (4) placebo pre-treatment + placebo. Formoterol 9 microg induced significant (P < 0.0001) bronchodilation at 2 h after inhalation (best mean increase in FEV(1): 0.170 L). Afterwards, dose-dependent increases in FEV(1) occurred with formoterol (maximum mean increase from 2-h value with formoterol: 0.072 after formoterol pre-treatment, and 0.201 L after placebo pre-treatment). Both maximum values of bronchodilation after the last inhalation of formoterol were statistically different (P < 0.001) from 2-h levels. These results show that dose-dependent bronchodilatation of formoterol is maintained despite regular treatment.