Consistent Targeted Dosing of BUD Benefits Asthma Patients Needing Long-Term Oral Corticosteroids

Summary

In patients with severe asthma who depend on long-term oral corticosteroid therapy, additional treatment with consistent doses of budesonide (BUD) delivered by a novel inhalation system significantly improved lung function and control of asthma exacerbations. This article discusses outcomes from the AKITA Inhaled Steroid Suspension for Inhalation in Subjects With Asthma [AICS; NCT01200108; Canisius S et al. Am J Respir Crit Care 2014]

  • Pulmonary Clinical Trials
  • Asthma
  • Pulmonary Clinical Trials
  • Pulmonary & Critical Care
  • Asthma

In patients with severe asthma who depend on long-term oral corticosteroid therapy, additional treatment with consistent doses of budesonide (BUD) delivered by a novel inhalation system significantly improved lung function and control of asthma exacerbations.

Sebastian Canisius, MD, Vectura GmbH, Frankfurt, Germany, reported outcomes from the AKITA Inhaled Steroid Suspension for Inhalation in Subjects With Asthma [AICS; NCT01200108; Canisius S et al. Am J Respir Crit Care 2014]—a Phase 2/3, randomized, placebo-controlled trial featuring 4 arms and parallel groups. In it, researchers evaluated the efficacy of a novel computer-controlled, compressor-driven inhalation system (Akita; Activaero) that delivered consistent doses of BUD as add-on treatment in patients with severe asthma on long-term oral corticosteroids therapy.

In the study, adult patients (age, 18 to 65 years; Table 1) from 27 respiratory outpatient centers in Germany, Poland, and Ukraine were randomly assigned in a double-blind fashion to 1 of 4 treatment arms for 18 weeks:

  1. AICS-BUD (1 mg): AKITA-inhaled corticosteroid+BUD (1 mg, twice a day [BID]; n=80)

  2. AICS-BUD (0.5 mg): AKITA-inhaled corticosteroid+ BUD (0.5 mg, BID; n=39)

  3. AICS-placebo: AKITA-inhaled corticosteroid+placebo (BID; n=40)

  4. CN-BUD: open-label treatment with BUD (1 mg, BID) administered with a conventional nebulizer (n=40)

The doses of long-term corticosteroid therapy were tapered until Week 14, and patients were followed to Week 20.

Table 1.

Baseline Characteristicsa

Efficacy was assessed on the basis of lung function parameters, including mean forced expiratory volume in 1 second (FEV1), as well as mean change in forced expiratory flow from 25% to 75% of vital capacity, which (FEF25–75) that the authors noted is a fairly reliable surrogate marker of small airway function. These lung function parameters were recorded during each patient visit for 2 weeks.

Overall, the study revealed that the dose of long-term oral corticosteroids was reduced in all treatment arms. For patients who received add-on therapy, lung function parameters improved significantly at Week 18 from baseline, whereas no significant improvements were seen in patients in the placebo and conventional nebulizer arms. The mean FEV1 were 239 mL (p<0.001) and 126 mL (p=0.01) for AICS-BUD (1 mg) and AICS-BUD (0.5 mg), respectively, and 93 mL (p=0.36) and 137 mL (p=0.18) for placebo and CN-BUD, respectively. Regarding small airway function, the study revealed that patients treated with AICS-BUD (1 mg) had significant improvement in mean FEF25–75 from baseline to Week 18 compared with patients in the AICS-placebo arm. The study also indicated that patients treated with AICS-BUD (1 mg), compared with those treated by CN-BUD, had fewer asthma exacerbations (7.5% vs 22.5%), a longer mean time to first exacerbation (96.5 vs 50.1 days), and a smaller subsample of patients who experienced asthma instability (15.0% vs 25.0%).

These findings show an improvement in lung function 12 weeks after initiation of consistent dosing of BUD via a novel delivery system. Without controlling for differences among treatment groups, there appears to be greater benefit of consistent delivery of BUD (1 mg) over similar dosing with a conventional nebulizer.

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