Assessment of Symptoms Control, Pulmonary Function and Related Quality of Life in Asthmatic Patients Treated with Extrafine Beclomethasone Dipropionate/Formoterol Fumarate 100/6 μg pMDI: Results of a Multicenter Observational Study in Romania (ALFRESCO Study).

Introduction: Asthma treatment guidelines advocate the use of long-acting beta2-agonists (LABA) in addition to inhaled corticosteroids (ICS) in patients whose asthma is uncontrolled by ICS alone. This is the first study done in Romania, which collected the real-world data on the effects of Foster® (extrafine beclomethasone dipropionate/formoterol fumarate BDP/FF in a pressurized metered-dose inhaler pMDI 100/6 μg formulation) in adult asthmatic population. Objective: We aimed to assess the asthma symptoms control, pulmonary function and quality of life parameters in a heterogeneous Romanian asthmatic adult outpatient population, treated with extrafine BDP/FF 100/6 μg pMDI.
Methods: This was a prospective, multicenter, observational study involving 30 pulmonologists randomly selected from the Romanian healthcare system, which did not declare any competing interests. Recruitment period was Oct 2018 - Feb 2019, while the patients' observational period was 24 weeks. The study included poorly controlled and uncontrolled adult asthma outpatients treated with non-extrafine formulations medication, for which the treatment indication, according to Global Initiative for Asthma (GINA) 2018, was the use of an ICS-LABA combination. The study collected demographic data, smoking habits, comorbidities, data regarding asthma diagnosis, the evolution of asthma symptoms, spirometry, Asthma Control Questionnaire (ACQ-7) scoring test, current and concomitant treatment.
Results: Of 302 included patients, 290 completed the study. Pulmonary function parameters assessed during the trial (forced expiratory volume in one second - FEV1 and forced vital capacity - FVC) showed a significant improvement versus baseline (p<0.001). ACQ-7 score decreased significantly from 3.09±0.83 (visit 1) to 1.56±0.89 (visit 2) and to 1.09±0.81 (visit 3) (p<0.001). At the end of the study, 127 (43.79%) patients were well controlled (ACQ-7 score < 0.75).
Conclusion: This observational study demonstrates the effectiveness and safety of extrafine fixed combination of BDP/FF (100/6 μg) pMDI in Romanian adult asthma patients uncontrolled with non-extrafine medication in a real-world setting, leading to clinically and statistically improvements in asthma control and pulmonary function.

Introduction

Asthma is one of the most common chronic diseases worldwide in all age groups, with more than 300 million affected individuals and its prevalence keeps increasing in certain countries,1 being at the same time a major public health problem worldwide, which might potentially negatively impact patient’s quality of life.2

The primary aim of asthma treatment is to achieve and maintain overall asthma control by reducing the severity of current symptoms and minimizing future risk regarding asthma-related mortality, exacerbations, persistent airflow limitation and side-effects.2

Asthma treatment guidelines advocate the use of long-acting beta2-agonists (LABA) in addition to inhaled corticosteroids (ICS), either separately or as a fixed-dose formulation, in patients whose asthma is uncontrolled by ICS alone.2,3 For ICS/formoterol fixed combination, the recommendation is the use as maintenance only or as maintenance and reliever therapy (MART).2

The extrafine formulation of beclomethasone dipropionate/formoterol fumarate (BDP/FF) 100/6 µg in a pressurized metered-dose inhaler (pMDI) is known to produce high and homogeneous lung deposition, allowing at the same time a uniform treatment for the bronchoconstriction, as well as inflammation within the entire bronchial tree.4–6

Also, the efficacy of BDP/FF 100/6 µg pMDI in patients with moderate to severe asthma was demonstrated in several randomized clinical trials (RCTs);7,8 nevertheless, it should be emphasized that the effectiveness of the treatment is dependent also on other factors as the medical device used, the inhalation technique, patient’s treatment adherence. Those factors are playing an important role in drug delivery and distribution along the bronchial tree, including the peripheral airways. Observational studies could add significant information to the finding of RCTs, by recording effectiveness and safety data in real-life situations.

This is the first study done in Romania collecting real-life data regarding the efficacy and safety of BDP/FF, an extrafine pMDI fixed-dose formulation, used as maintenance only or as MART in adult asthmatic patients.

Materials and Methods

Study Design

This is a prospective, multicenter, observational study that took place in Romania, involving 30 pulmonologists, randomly selected from the national healthcare system, which did not declare any competing interests. Each investigator planned to recruit ten (10) asthmatic patients visiting his office, fulfilling the protocol criteria.

Recruitment took place between October 2018 - Feb 2019, while the patient’s observation period was 24 weeks, including three visits: visit 1 (V1) - inclusion visit; visit 2 (V2) - 12-weeks follow-up visit and visit 3 (V3) - 24-weeks follow-up visit.

The study included poorly controlled and uncontrolled adult asthma outpatients (males and females) being treated with non-extrafine formulations medication, if they had a positive bronchodilator reversibility test (increase in forced expiratory volume in 1st second (FEV1) of >12% and >200 mL from baseline, 10–15 minutes after 200–400 mcg salbutamol or equivalent) and for which the treatment indication, according to Global Initiative for Asthma (GINA) 2018 guidelines, was the use of an ICS-LABA combination.2

The investigator, based on own medical judgement and daily practice regarding the management of asthma patients, unconditionally by the participation of the patient in the study, prescribed an extrafine formulation of BDP/FF 100/6 µg pMDI, in accordance with its approved Summary of Product Characteristics (SmPC). The dose of extrafine ICS/formoterol was adjusted by the investigators in accordance to her/his decision, based on her/his medical experience and SmPC. The investigator was fully responsible for his/her decision in the patient’s interest and was not influenced by the study. The study excluded patients which met any of the BDP/FF 100/6 µg pMDI SmPC contraindications, limitations, restrictions or if they were participating in another clinical trial. The medication was bought by each patient from public pharmacies.

Data regarding patient baseline characteristics (age, gender, height, weight, education, smoking habits, concomitant diseases, number of years of asthma diagnosis and previous asthma medical treatment) were collected in the Case Report Form (CRF). Asthma symptoms (cough, wheezing reported by subject, wheezing observed during the clinical examination, thoracic constriction, dyspnea at rest and exertional dyspnea), data regarding pulmonary function tests (FEV1 morning pre-dose, forced vital capacity (FVC) morning pre-dose and FEV1/FVC % morning pre-dose), Asthma Control Questionnaire-7 (ACQ-7) score (Figure 1), use of medication, adherence to treatment, asthma symptomatology evolution and adverse drug reactions (ADRs) were collected during each study visit.

Figure 1

Asthma Control Questionnaire-7 items.

Pulmonary function was assessed using spirometry (performed before drug administration) as per routine practice and according to guidelines. Moreover, the morning dose intake treatment was done at site after performing the pulmonary function test. This procedure was performed in order to collect the real data regarding lung function, as well as assessing the patients’ inhalation technique and providing correction instructions, where needed.

The study was conducted in accordance with the Declaration of Helsinki and Good Clinical Practice guidelines. The study was approved by the Romanian National Bioethics Committee for Medicine and Medical Devices (NBCMMD) and Romanian National Agency for Medicines and Medical Devices (NAMMD). All included patients provided written Informed Consent Form (ICF).

Statistics

Due to observational nature of the study, without comparative design, it was decided that each site, out of the 30 pneumologists randomly selected from Romanian healthcare system, will recruit 10 patients in order to obtain the most representative data set. Since no statistical hypothesis test was planned, the study sample size was not based on a formal power calculation, but estimated on recruitment capabilities of the sites.

The statistical analysis was essentially descriptive, using Student’s t test, Fisher’s test and Chi-Square test. Scale variables were reported as mean ± standard deviation (SD) and summarized categorical variables using frequencies and percentages. For all tests, a p-value <0.05 was considered statistically significant. SPSS Statistics (version 19.0, Chicago, Illinois, USA) was used.

Results

A total of 302 asthma adult outpatients were included, of which 290 patients were eligible, completed the study and were part of the statistical analysis. Most of the 290 patients were females (62.07%), with a mean age of 55.94±14.68 years. Mean body mass index (BMI) was 28.89±2.83 kg/m2, without significant statistical gender differences. Most patients were non-smokers (73.4%) and had common comorbidities such as: high blood pressure (45.9%), allergic rhinitis (28.6%) and ischemic heart disease (21%) (Table 1). If measured by the investigators, vital sign measurements (systolic blood pressure (SBP), diastolic blood pressure (DBP), heart rate (HR), and respiratory rate) were recorded at study inclusion (Table 1).

Table 1

Baseline Characteristics

Baseline Characteristics	Male N (%)	Female N (%)	Total N (%)
Gender distribution	110 (37.93%)	180 (62.07%)	290
Age (years)	54.28±15.12	56.93±14.68	55.94±14.68
Height (cm)	171.66±7.85	160.9±6.68	164.96±6.68
Weight (kg)	84.15±18.64	74.71±15.48	78.24±15.48
BMI (kg/m2)	28.54±5.61	28.9±5.83	28.8±2.83
Education, N (%)
Primary school	35 (31.8%)	59 (32.8%)	94 (32.4%)
High school	56 (50.9%)	95 (52.8%)	151 (52.1%)
University	18 (16.4%)	23 (12.8%)	41 (14.1%)
Missing	1 (0.9%)	3 (1.6%)	4 (1.4%)
Smoking status
Non-smoker	65 (59.1%)	148 (82.2%)	213 (73.4%)
Current smoker	16 (14.5%)	13 (7.2%)	29 (10%)
Current smoker, cigarettes/day	12±5.56	13.52±6.34	12.76±5.98
Current smoker, years	27.62±9.51	21.46±10.67	24.54±10.81
Former smoker	27 (56%)	21 (44%)	48 (16.6%)
Former smoker, cigarettes/day	15.55±8.11	14.21±10.12	14.88±9.08
Former smoker, years	12.25±9.35	5.91±4.84	9.08±7.87
Comorbidities
Ischemic disease	22 (20%)	39 (21.7%)	61 (21%)
Heart failure	0 (0%)	4 (2.2%)	4 (1.4%)
Arrhythmia	2 (1.8%)	6 (3.3%)	8 (2.8%)
Hight blood pressure	47 (42.7%)	86 (47.8%)	133 (45.9%)
Pulmonary cancer	0 (0%)	0 (0%)	0 (0%)
Other cancer	1 (0.9%)	2 (1.1%)	3 (1%)
Sleep apnea	7 (6.4%)	2 (1.1%)	9 (3.1%)
Diabetes mellitus	6 (5.5%)	17 (9.4%)	23 (7.9%)
Hyperlipidemia	3 (2.7%)	20 (11.1%)	23 (7.9%)
Allergic rhinitis	32 (29.1%)	51 (28.3%)	83 (28.6%)
Osteoporosis	1 (0.9%)	11 (6.1%)	12 (4.1%)
Myopathy	1 (0.9%)	0 (0%)	1 (0.3%)
Anxiety/depression	3 (2.7%)	16 (8.9%)	19 (6.6%)
Other pathologies	18 (16.4%)	26 (14.4%)	44 (15.2%)
Vital signs
SBP (mmHg)	134.44±17.35	135.22±17.76	134.83±18.01
DBP (mmHg)	77.98±9.18	79.62±10.36	78.8±8.10
HR (bpm)	78.47±10.16	79.33±10.84	78.9±9.12
Respiratory rate (breaths/min)	16.48±2.38	17.2±7.31	16.84±4.84
Years of asthma diagnosis	11±9.03	11.24±11.61	11.12±10.71

Abbreviations: BMI, body mass index; SBP, systolic blood pressure; DBP, diastolic blood pressure; HR, heart rate.

At inclusion, symptoms reported by most patients were exertional dyspnea (93.8%) and cough (92.4%). Symptoms were most frequently reported to occur during the morning (77.6%) (Table 2). Spirometry at inclusion showed reduced values, both for male and female groups: the mean FEV1 value was 1.72±0.49 L, FVC 2.47±0.6 L and FEV1/FVC 70.96±14.07%, respectively. Mean ACQ-7 score at study inclusion was 3.09±0.83 (Table 2). The mean duration for asthma diagnosis was 11.12±10.71 years (Table 1), while the most frequent maintenance treatment used prior to study inclusion was a combination of ICS-LABA (65.2%), followed by ICS alone (27.9%) (Table 3). All patients received prescription of extrafine BDP/FF 100/6 μg pMDI, used as maintenance only [(33 pts (11.38%)] or as MART [257 pts (88.62%)].

Table 2

Asthma Symptoms and Pulmonary Function at Inclusion (V1)

Current Asthma Symptoms	Male N (%)	Female N (%)	Total N (%)
Exertional dyspnea	103 (93.6%)	169 (93.9%)	272 (93.8%)
Dyspnea at rest	36 (32.7%)	62 (34.4%)	98 (33.8%)
Thoracic constriction	54 (49.1%)	94 (52.8%)	149 (51.4%)
Wheezing observed during the clinical examination	89 (80.9%)	125 (69.4%)	214 (73.8%)
Wheezing reported by subject	98 (89.09%)	158 (88.3%)	257 (88.6%)
Cough	103 (93.6%)	165 (91.7%)	268 (92.4%)
Moment of symptoms worsening
Evening	53 (48.2%)	87 (48.3%)	140 (48.3%)
Night	73 (66.4%)	125 (69.4%)	198 (68.3%)
Morning	82 (74.5%)	143 (79.4%)	225 (77.6%)
Pulmonary function	Value (Mean±SD)	Value (Mean±SD)	Value (Mean±SD)
FEV1 pre-dose (L)	2.03±0.69	1.41±0.49	1.72±0.49
FVC pre-dose (L)	2.95±0.94	1.99±0.59	2.47±0.60
FEV1/FVC pre-dose (%)	69.02±14.11	72.11±13.79	70.96±14.07
ACQ-7 score	3.15±0.78	3.03±0.85	3.09±0.83

Abbreviations: SD, standard deviation; FEV1, forced expiratory volume in 1st second; FVC, forced vital capacity; ACQ-7, Asthma Control Questionnaire-7 items.

Table 3

Maintenance Medication/Active Substances Classes Used for Asthma Control Prior to Study Inclusion

Maintenance Medication /Active Substances Classes at V1	Male N (%)	Female N (%)	Total N (%)
Antihistamines (H1 antagonists)	7 (6.4%)	14 (7.8%)	21 (7.2%)
SABA	5 (4.5%)	8 (4.4%)	13 (4.9%)
LABA	3 (2.7%)	5 (2.8%)	8 (2.8%)
Methylxanthines	6 (5.5%)	4 (2.2%)	10 (3.4%)
LAMA	3 (2.7%)	6 (3.3%)	9 (3.1%)
ICS alone	31 (28.2%)	50 (27.8%)	81 (27.9%)
Combination ICS-LABA	69 (62.7%)	120 (66.7%)	189 (65.2%)
LTRA	6 (5.5%)	11 (6.1%)	17 (5.9%)

Abbreviations: V1, visit 1; SABA, short-acting β2 agonist; LABA, long-acting β2 agonist; LAMA, long-acting muscarinic antagonist; ICS, inhaled corticosteroid; LTRA, leukotriene receptor antagonist.

Pulmonary function and asthma symptoms improved throughout the study. FEV1 mean value increased from 1.72±0.61 L (V1) to 2.25±0.77 L (V3) (p<0.001), FVC mean value increased from 2.47±0.83 L (V1) to 2.89±0.83 L (V3) (p<0.001) (Table 4). The mean ACQ-7 score for all 290 patients decreased significantly throughout the study, from the mean value of 3.09±0.83 (V1) to 1.09±0.81 (V3) (p<0.001) (Table 4 and Figure 2).

Table 4

Pulmonary Function and ACQ-7

Pulmonary Function		V1	V2	V3	P
FEV1 pre-dose (L)	N	290	290	290	<0.001
	Mean±SD	1.72±0.61	2.19±0.86	2.25±0.77
FVC pre-dose (L)	N	290	290	290	<0.001
	Mean±SD	2.47±0.83	2.86±0.87	2.89±0.83
FEV1/FVC pre-dose (%)	N	290	290	290	<0.001
	Mean±SD	70.96±14.07	76.6±13.62	77.25±14.80
ACQ-7 score	Total study population	V1	V2	V3	P
N		290	290	290	<0.001
Mean±SD		3.09±0.83	1.56±0.89	1.09±0.81
ACQ7- score	Prior maintenance treatment: non-extrafine ICS-LABA	V1	V2	V3	P
N		189	189	189	<0.001
Mean±SD		3.16±0.82	1.71±0.85	1.18±0.77
ACQ7- score	Prior maintenance treatment: ICS	V1	V2	V3	P
N		81	81	81	<0.001
Mean±SD		3.00±0.84	1.24±0.90	0.82±0.74

Abbreviations: SD, standard deviation; FEV1, forced expiratory volume in 1st second; FVC, forced vital capacity; ACQ-7, Asthma Control Questionnaire-7 items; LABA, long-acting β2-agonist; ICS, inhaled corticosteroid; V1, visit 1; V2, visit 2; V3, visit 3.

Figure 2

ACQ-7 score evolution.

The frequency of the most reported symptoms decreased; exertional dyspnea from 93.8% (V1) to 53.4% (V3) (p<0.001) and cough from 92.4% (V1) to 32.8% (V3) (p<0.001). Patients were stratified based on every symptom presented and the ACQ-7 reported value was calculated for each group presenting a certain symptom. A significant decrease in ACQ-7 score was observed (p<0.001) for all groups. For the most frequently reported symptoms, exertional dyspnea and cough, the ACQ-7 mean value decreased as follows: from 3.11±0.83 (V1) to 1.3±0.84 (V3) and from 3.1±0.82 (V1) to 1.54±0.77 (V3) (p<0.001), respectively (Table 5). We noticed that during the treatment with BDP/FF 100/6 μg pMDI, the improvement of asthma symptomatology, defined as frequency of symptoms reported, as well as the asthma control measured by ACQ-7, was significant throughout the study (p<0.001), irrespective to the prior non-extrafine ICS-LABA treatment received by the subjects before the study inclusion (Tables 6–8). For patients treated with different ICS-LABA combinations (non-extrafine formulations) prior study inclusion, after the change in treatment to BDP/FF 100/6 μg pMDI, the ACQ-7 value decreased significantly from 3.16±0.82 (V1) to 1.18±0.77 (V3) (p<0.001) (Table 4).

Table 5

Asthma Symptoms Evolution During the Observational Study

Current Asthma Symptoms	ACQ-7 Score	Frequency				P
		V1	V2	V3
Cough	N (%)	268 (92.4%)	147 (50.7%)	95 (32.8%)		<0.001
	Mean (+ SD)	3.1±0.82	1.8±0.88	1.54±0.77
Wheezing reported by subject	N (%)	256 (88.28%)	100 (34.5%)	59 (20.3%)		<0.001
	Mean (+ SD)	3.18±0.80	1.95±0.92	1.8±0.81
Wheezing observed during the clinical examination	N (%)	214 (73.8%)	78 (26.9%)	49 (16.9%)		<0.001
	Mean (+ SD)	3.22±0.78	2.11±0.91	1.7±0.57
Thoracic constriction	N (%)	148 (51.03%)	35 (12.1%)	31 (10.7%)		<0.001
	Mean (+ SD)	3.28±0.85	2.12±0.94	1.85±0.79
Dyspnea at rest	N (%)	98 (33.8%)	11 (3.8%)	5 (1.7%)		<0.001
	Mean (+ SD)	3.62±0.71	2.9±1.09	2.52±0.84
Exertional dyspnea	N (%)	272 (93.8%)	205 (70.7%)	155 (53.4%)		<0.001
	Mean (+ SD)	3.11±0.83	1.76±0.87	1.3±0.84
Patients without asthma symptomatology	V1			V3
	N (%)	ACQ-7 (Mean±SD)		N (%)		ACQ-7 (Mean±SD)
	0 (0%)			98 (33.79%)		0.50±0.397

Abbreviations: SD, standard deviation; V1, visit 1; V2, visit 2; V3, visit 3; ACQ-7, Asthma Control Questionnaire-7 items.

Table 6

ACQ-7 Score and Asthma Symptoms for Patients Treated with Non-Extrafine BUD/F Prior V1, Followed by Extrafine BDP/FF 100/6 μg pMDI

Asthma Symptoms	ACQ-7 Score	V1	V2	V3	p
Cough	N	84 (95.5%)	43 (48.87%)	30 (34.1%)	<0.001
	Mean±SD	3.06±0.80	1.98±0.80	1.29±0.69
Wheezing reported by subject	N	76 (86.4%)	31 (35.2%)	20 (22.7%)	<0.001
	Mean±SD	3.16±0.79	2.15±0.90	2.1±0.99
Wheezing observed during the clinical examination	N	61 (69.3%)	27 (30.7%)	21 (23.9%)	<0.001
	Mean±SD	3.32±0.74	2.37±0.68	1.69±0.79
Thoracic constriction	N	43 (48.9%)	11 (12.5%)	10 (11.4%)	<0.001
	Mean±SD	3.29±0.96	2.07±0.92	1.4±0.69
Dyspnea at rest	N	31 (35.2%)	2 (2.3%)	1 (1.1%)	<0.001
	Mean±SD	3.59±0.81	2.43±0.36	1.28± 0
Exertional dyspnea	N	81 (92%)	63 (71.6%)	54 (61.4%)	<0.001
	Mean±SD	3.1±0.88	1.99±0.83	1.30±0.82

Abbreviations: BUD/F, budesonide/formoterol; BDP/FF, beclomethasone dipropionate/formoterol fumarate; pMDI, pressurized metered-dose inhaler; V1, visit 1; V2, visit 2; V3, visit 3; ACQ-7, Asthma Control Questionnaire-7 items.

Table 7

ACQ-7 Score and Asthma Symptoms for Patients Treated with FLU/SAL Prior V1, Followed by Extrafine BDP/FF 100/6 μg pMDI

Asthma Symptoms	ACQ-7 Score	V1	V2	V3	p
Cough	N	90 (89.1%)	58 (57.4%)	40 (39.6%)	<0.001
	Mean±SD	3.33±0.82	1.91±0.95	1.45±0.77
Wheezing reported by subject	N	92 (91.09%)	41 (40.6%)	24 (23.8%)	<0.001
	Mean±SD	3.33±0.8	1.98±0.93	1.55±0.84
Wheezing observed during the consult	N	86 (85.1%)	32 (31.7%)	18 (17.8%)	<0.001
	Mean±SD	3.31±0.79	2.08±1.13	1.7±0.80
Thoracic constriction	N	54 (53.5%)	15 (14.9%)	13 (12.9%)	<0.001
	Mean±SD	3.52±0.91	1.99±0.69	1.47±0.59
Dyspnea at rest	N	40 (39.6%)	5 (5%)	1 (1%)	<0.001
	Mean±SD	3.65±0.76	2.64±0.57	1.28±0
Exertional dyspnea	N	97 (96%)	81 (80.2%)	63 (62.4%)	<0.001
	Mean±SD	3.33±0.84	1.86±0.91	1.31±0.85

Abbreviations: ACQ-7, Asthma Control Questionnaire-7 items; FLU/SAL, fluticasone/salmeterol; BDP/FF, beclomethasone dipropionate/formoterol fumarate; pMDI, pressurized metered-dose inhaler; V1, visit 1; V2, visit 2; V3, visit 3

Table 8

ACQ-7 Score and Asthma Symptoms for Patients Treated with Non-Extra Fine ICS-LABA Prior V1, Followed by Extrafine BDP/FF100/6 μg pMDI

Asthma Symptoms	ACQ-7 Score	V1	V2	V3	p
Cough	N	174 (92.1%)	101 (53.4%)	70 (37%)	<0.001
	Mean±SD	3.29±0.82	1.94±0.84	1.37±0.80
Wheezing reported by subject	N	168 (88.9%)	72 (38.9%)	44 (23.3%)	<0.001
	Mean±SD	3.33±0.77	2.06±0.86	1.81±0.81
Wheezing observed during the clinical examination	N	147 (77.8%)	59 (31.2%)	39 (20.6%)	<0.001
	Mean±SD	3.32±0.80	2.16±0.85	1.69±0.55
Thoracic constriction	N	97 (51.3%)	26 (13.8%)	23 (12.2%)	<0.001
	Mean±SD	3.43±0.88	2.24±0.81	1.43±0.81
Dyspnea at rest	N	71 (37.6%)	7 (3.7%)	2 (1.1%)	<0.001
	Mean±SD	3.62±0.72	2.54±0.56	1.28±0
Exertional dyspnea	N	178 (94.2%)	144 (76.2%)	117 (61.9%)	<0.001
	Mean±SD	3.21±0.83	1.92±0.85	1.31±0.84

Abbreviations: BUD/F, budesonide/formoterol; FLU/SAL, fluticasone/salmeterol; BDP/FF, beclomethasone dipropionate/formoterol fumarate; SD, standard deviation; V1, visit 1; V2, visit 2; V3, visit 3; FEV1, forced expiratory volume in 1st second; FVC, forced vital capacity; ACQ-7, Asthma Control Questionnaire-7 items; LABA, long-acting β2-agonist; ICS, inhaled corticosteroid.

Use of extrafine BDP/FF 100/6 μg pMDI improved the ACQ-7 score from V1 to V3, for all patients and the improvement was significant regardless of the therapy mode applied, maintenance only or MART (p<0.001) (Table 9).

Table 9

ACQ-7 for Different Extrafine BDP/FF 100/6 μg pMDI Treatment Regimens

ACQ-7 for Different Treatment Regimens		V1	V2	V3	p V1, V2	p V2, V3	p V1, V3
Extrafine BDP/FF 100/6 μg pMDI as maintenance medication + salbutamol as reliever medication	N	33	33	33	<0.001	<0.001	<0.001
	ACQ-7 score	3.39	1.77	1.40
	SD	0.941	0.865	0.930
Extrafine BDP/FF 100/6 μg pMDI as MART	N	257	257	257	<0.001	<0.001	<0.001
	ACQ-7 score	3.05	1.53	1.05
	SD	0.804	0.896	0.780

Abbreviations: ACQ-7, Asthma Control Questionnaire-7 items; BDP/FF, beclomethasone dipropionate/formoterol fumarate; MART, maintenance and reliever therapy.

The ACQ-7 variation during the study was analyzed for patients in relation to their treatment adherence and it was observed that adherence decreased when improved asthma control was obtained (Table 10). During the study duration, the patients skipped maintenance medication for a median interval of 5.25 days. At V3, 127 (43.79%) of patients reached well-controlled asthma status, defined by ACQ-7 score <0.75 (Table 11).

Table 10

ACQ-7 Score and Treatment Adherence

ACQ-7	V2		V3		p
	Did Patient Skip Any Day of Treatment Since Last Visit?		Did Patient Skip Any Day of Treatment Since Last Visit?
	No	Yes	No	Yes
N (%)	230 (79.4%)	60 (20.6%)	220 (75.4%)	70 (24.6%)	<0.001
Mean±SD	1.54±0.87	1.64±0.97	1.1±0.81	1.07±0.80

Abbreviations: SD, standard deviation; V2, visit 2; V3, visit 3; ACQ-7, Asthma Control Questionnaire-7 items.

Table 11

ACQ-7 Score Evolution

ACQ-7	V1		V3
	N (%)	Mean±SD	N (%)	Mean±SD
<0.75			127 (43.79%)	0.41±0.214
0.75–1.5	9 (3.10%)	1.39±0.058	90 (31.04%)	1.12±0.197
>1.5	281 (96.90%)	3.14±0.782	73 (25.17%)	2.25±0.538

Abbreviations: SD, standard deviation; V1, visit 1; V3, visit 3; ACQ-7, Asthma Control Questionnaire-7 items.

The frequency of symptoms decreased from V1 [77.79% (in the morning), 68.28% (in the night) and 48.28% (in the evening)] to V3 [30.00% (in the morning), 10.00% (in the night) and 14.14% (in the evening), respectively] (p<0.001) (Table 12). In similar manner, the reliever use decreased throughout the study, reaching at V3 a percentage of 67.93% of subjects not requiring reliever use, during interrogated period (Figure 3).

Table 12

Asthma Symptomatology Worsening Chronology

Chronology of Symptoms Worsening		V1	V2	V3	P V1, V2, V3	P V1, V2	P V1, V3	P V2, V3
Morning	N	225	198	140	<0.001	<0.001	<0.001	<0.001
	%	77.59%	34.83%	30.00%
Night	N	198	54	29	<0.001	<0.001	<0.001	<0.001
	%	68.28%	18.62%	10.00%
Evening	N	140	83	41	<0.001	<0.001	<0.001	<0.001
	%	48.28%	28.62%	14.14%

Abbreviations: V1, visit 1; V2, visit 2; V3, visit 3.

Figure 3

The average number of puffs of reliever medication used every day.

There were 4 ADRs reported (1.37% of patients) and no Serious Adverse Events (SAE) or hospitalization due to asthma worsening were reported during the study.

Discussion

This is the first real-world study of the use of the extrafine BDP/FF 100/6 µg pMDI, both as maintenance only or MART, for adult asthmatic outpatients, done in Romania, aiming to assess asthma symptoms control, evolution of pulmonary function and quality of life parameters.

In this study, the use of the extrafine BDP/FF 100/6 µg pMDI showed utility in the management of asthma in poorly controlled or uncontrolled adult outpatients in real-life environment.

The patient population included in the study is considered representative for Romanian asthmatic population in terms of age (± 55.9 years), gender distribution, asthma duration (±11 years), BMI (± 28 kg/m2), smoking status (current smokers 10%, former smokers 16.6%), similar to other recent published data.9

The study demonstrated that the use of the extrafine BDP/FF 100/6 µg pMDI, regardless of prior study medication used by the patients, lead to clinically and statistically improvements during the 24-week observational period in pulmonary function [FEV1 mean value increased from 1.72±0.61 L (V1) to 2.25±0.77 L (V3) (p<0.001), FVC mean value increased from 2.47±0.83 L (V1) to 2.89±0.83 L (V3) (p<0.001)], decrease of asthma symptoms frequency (p<0.001) and improvement in asthma control, evaluated by ACQ-7 [ACQ-7 score decreased from the mean value of 3.09±0.83 (V1) to 1.09±0.81 (V3) (p<0.001)]. The improvement from baseline in pulmonary function measurements proves that included subjects had room for improvement during treatment. At the end of the study 43.79% of the included subjects were well controlled (ACQ-7<0.75). These findings are similar to other real-world evidences that have indicated that only 50% of patients with asthma meet the criteria for well-controlled asthma, at best.10–15

At inclusion, out of the 290 patients who completed the study, 33.8% presented all six assessed asthma symptoms, while at end of the study, only 1.7% reported all symptoms. As predicted, there were no symptom-free patients at inclusion, while at the end of study this increased to 33.79%. Symptoms improved significantly during the study, demonstrating the efficacy of extrafine BDP/FF 100/6 µg pMDI treatment. The reliever use decreased throughout the study, reaching at V3 a percentage of 67.93% of subjects not requiring reliever use, during interrogated period (Figure 3). Those data should be interpreted with caution as long as data regarding reliever use are based on patient’s declarations. Approximately one quarter (24.6%) of patients skipped days of maintenance treatment since they did not feel the need to take their maintenance therapy medication every day. These findings are similar to those of the INSPIRE study.10

The extrafine BDP/FF 100/6 µg pMDI was well tolerated and safety profile was in line with the known effects of this type of medication. This could be explained by the ultra-micronized structure of particles that are transported directly to lungs, with minimal systemic absorption.6 The extrafine pressurized metered-dose inhaler formulation could increase the pulmonary absorption despite the use of a reduced nominal dose of corticosteroid. Moreover, the systemic exposure is lower and lung deposition is higher when using an extra fine pMDI.6

As per existing guidelines when study recruitment took place (2018–2019), as well as current guidelines, the asthma control is described by the frequency of asthma symptoms, frequency of reliever medication use, pulmonary functional tests and physical activity limitation, while future risks are characterized by longer-term factors such as decline in pulmonary function, frequency of asthma exacerbations and adverse effects of anti-asthmatic medication.2,5,6,16,17 Asthma severity has traditionally been defined using clinical features present only in the absence of therapy, which is why the quantitative ACQ was developed and validated by Juniper et al.18 This questionnaire assesses the level of asthma control independent of asthma severity level.19,20 Current practice guidelines, GINA 2022, define ACQ scores as it follows: <0.75 indicates a high probability of “well-controlled” asthma, 0.75–1.5 is a “grey zone”, and >1.5 indicates a high probability of “poor-controlled” asthma and states that the minimum clinically important difference between measurements is 0.5.16 In the current observational study, it could be noticed that such difference exists between ACQ-7 scores from V1 to V3.

The approach to the management of asthma using ICS/formoterol combination as MART is facilitating a simplified asthma management for the patients requiring only a single inhaler. In this manner, when used as reliever, patients receive a standard dose of ICS in addition to LABA, which is targeting the inflammation associated with symptoms increase.21

In the current 24-week period observational real-world data study, same approach as the one recommended by GINA was followed, namely using extrafine BDP/FF 100/6 µg pMDI as MART for most of the patients (88.62%) and it shown utility in the management of asthma in poorly controlled or uncontrolled adult outpatients, by achieving current asthma control and reducing future risk, similar to RCTs using BDP/FF extrafine formulation7 or other ICS/formoterol combination as MART regimen.22–24

The improvement noticed in asthma evolution could be explained by the drug extrafine particles, which allow a better deposition in the lungs, together with a uniform treatment throughout the entire bronchial tree4–6,25 without inducing systemic load.8,26 In addition, other studies demonstrated that the BDP/FF 100/6 µg combination has a synergistically bronchorelaxant effect on medium bronchi and small airways.27

It is known that observational studies could add important real-life findings regarding effectiveness and safety from the daily clinical practice, which complement the knowledge driven from RCTs, mainly due to the fact that observational studies do not exclude patients with different comorbidities.25,28,29

There are also certain limitations of the observational studies that should be mentioned, for the current observational study as well, where some variables were missing due to chance and patient’s inhalation technique is variable, despite of investigator’s assessment and advise.

In other real-life studies was observed that patients treated with extrafine BDP/FF formulation, compared to ICS-LABA larger particle size combinations, achieved a greater level of asthma control,30 improved the quality of life31 and this fact might be explained by higher deposition of extrafine particles in the small airways. Similar to the current study findings, the real-life effectiveness and safety of BDP/FF were also demonstrated by other study in adult asthma patients including smokers.25

Due to observational study design, we cannot make definitive statements regarding causal relationship of observed findings within our study.

Conclusion

The results of this observational study demonstrate the effectiveness and safety of extrafine fixed combination of BDP/FF (100/6 μg) pMDI in Romanian adult asthma patients uncontrolled with non-extrafine medication in a real-world setting, leading to clinically and statistically improvements in asthma control and pulmonary function.