Bronchial Asthma Clinical Trial
Official title:
Effects on Small Airways Obstruction of Two Long-term Treatments With Extrafine Beclomethasone/Formoterol vs Fluticasone/Salmeterol in Asthma
New formulations of extrafine particles of long acting beta-2 agonists+inhaled
corticosteroids (LABA+ICS) are able to reach more peripheral regions of the lung.
Objectives.The aim of this study was to assess the effect on small airways obstruction of
long-term treatments with two different LABA+ICS combinations in asthma.
Patients and methods.Ten subjects with moderate persistent asthma were enrolled. After a
4-week washout they were treated in a randomized cross-over design for 24 weeks with
formoterol 12 mcg and beclometasone 200 mcg HFA (by MDI) b.i.d. (FB) or salmeterol 50 mcg
and fluticasone 250 mcg (diskus) b.i.d. (SF). At baseline and at the end of each period
subjects underwent Asthma Control Test (ACT) and Pulmonary Function Testing. The N2 phase
III slope and closing volume (CV) during single breath washout test, and
DElta(Heliox-air)MEF50% were measured to assess changes on peripheral airways function.
Study design After a 4-week washout period, during which patients were allowed to take only
salbutamol (as needed), they were assigned according to a double-blind, double-dummy
randomized crossover study to one of the two following 24-week treatments: 1) formoterol 12
µg plus beclomethasone HFA 200 µg (by MDI) b.i.d., or 2) salmeterol 50 µg plus fluticasone
propionate 250 µg (diskus) b.i.d.. Daily doses of 400 µg beclomethasone HFA and 500 µg of
fluticasone propionate are equivalent, according to the Global Initiative for Asthma (GINA)
International guidelines6. At the end of first period and after another 4-week washout
period, they received the second randomized 24-week treatment.
Adherence to the treatment was based on self-reports by each patient, on a declaration of
willingness to continue to participate to the study and on the counter of drug doses
disposed by inhalers. All patients have been trained to correctly inhale the drugs by
different devices.
At the end of the washout periods and two treatments the subjects underwent Asthma Control
Test (ACT), oxygen saturation (SaO2) measurement and Pulmonary Function Testing (PFT).
The subjects were enrolled after obtainment of written consent. The protocol has been
approved by our local Ethic Committee.
Asthma Control Test Subjects completed an ACT questionnaire at the end of each washout and
treatment period. Asthma control was assessed by the validated Italian version of the ACT.
They subjectively evaluated the degree of impairment caused by their asthma during the
preceding 4 weeks answering to five questions using a five-point-scale. The ACT is a
reliable and validated tool, responsive to changes in asthma control over time. A cut-off
score of 19 or less identifies subjects with poorly controlled asthma.
Pulmonary Function Testing A computerized water-sealed light-bell Stead-Wells spirometer
(Biomedin, Padua, Italy) was used for measuring slow vital capacity (SVC), inspiratory
capacity (IC), and maximal flow-volume curves. The operator was assisted during the test by
software able to verify electronically both the acceptability and reproducibility of
spirometric maneuvers. All the spirometric tests employed in the study fulfilled the
recommendations of American Thoracic Society. Total lung capacity (TLC), functional residual
capacity (FRC) and residual volume (RV) were obtained by using the plethysmographic method.
The body plethysmograph was a variable flow, constant pressure-type with a frequency
response flat until 30 Hz (Biomedin, Padua, Italy).
Determination of the slope of N2 phase III and closing volume (CV) was obtained during a
single-breath nitrogen washout test (SBWN2)(Medical Graphics, St. Paul, MN, US). Subjects in
sitting position after exhaling to residual volume (RV) inhaled slowly pure oxygen with a
single breath until TLC and then expired slowly from TLC to RV. The expired nitrogen
concentration was measured and plotted as function of expired lung volume. This relationship
was fitted linearly in the phase III and the slope of N2 phase III was computed
automatically by the software. The onset of phase IV was identified on the trace by software
or by visual examination, if required. The average values of the N2 phase III slope and CV
obtained from two acceptable and reproducible measurements (with expiratory slow vital
capacity within 10%) were selected for analysis.
Expiratory maximal flow-volume curves breathing either air or heliox (oxygen 21% and helium
79%) were also performed. Breathing mixture was introduced in the bell of spirometer by a
3-way stopcock connected to the ambient air or to a cylinder containing humidified heliox at
ambient temperature and pressure. In each occasion, after 3 slow deep breaths to total lung
capacity, a forced expiratory maneuver was performed starting from TLC without
end-inspiratory pause. Measurements of MEF50% with air and heliox and determination of their
differences [Delta(Heliox-air)MEF50%] were obtained at baseline and subsequently at
corresponding isovolume.
Statistical analysis All values are expressed as mean ± SD. We used the mean of the
functional values of the two baselines for comparisons. Analysis of variance of the
variables of interest among baseline and two therapeutic regimens (end of treatment periods)
were performed by Friedman's test. Comparisons between groups were made according to
Wilcoxon test, when allowed. A p value <0.05 was considered significant. Statistical
analysis was performed with GraphPad Prism Version 4 (GraphPad Software; San Diego, CA,
USA).
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Investigator), Primary Purpose: Treatment
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