Is delayed introduction of inhaled corticosteroids harmful in patients with obstructive airways disease (asthma and COPD)? The Dutch CNSLD Study Group. The Dutch Chronic Nonspecific Lung Disease Study Groups

Inhaled corticosteroids versus placebo for stable chronic obstructive pulmonary disease

BACKGROUND

The role of inhaled corticosteroids (ICS) in chronic obstructive pulmonary disease (COPD) has been the subject of much uncertainty. COPD clinical guidelines currently recommend selective use of ICS. ICS are not recommended as monotherapy for people with COPD, and are only given in combination with long-acting bronchodilators due to greater efficacy of combination therapy. Incorporating and critiquing newly published placebo-controlled trials into the monotherapy evidence base may help to resolve ongoing uncertainties and conflicting findings about their role in this population.

OBJECTIVES

To evaluate the benefits and harms of inhaled corticosteroids, used as monotherapy versus placebo, in people with stable COPD, in terms of objective and subjective outcomes.

SEARCH METHODS

We used standard, extensive Cochrane search methods. The latest search date was October 2022.

SELECTION CRITERIA

We included randomised trials comparing any dose of any type of ICS, given as monotherapy, with a placebo control in people with stable COPD. We excluded studies of less than 12 weeks' duration and studies of populations with known bronchial hyper-responsiveness (BHR) or bronchodilator reversibility.

DATA COLLECTION AND ANALYSIS

We used standard Cochrane methods. Our a priori primary outcomes were 1. exacerbations of COPD and 2. quality of life. Our secondary outcomes were 3. all-cause mortality, 4. lung function (rate of decline of forced expiratory volume in one second (FEV1)), 5. rescue bronchodilator use, 6. exercise capacity, 7. pneumonia and 8. adverse events including pneumonia. ]. We used GRADE to assess certainty of evidence.

MAIN RESULTS

Thirty-six primary studies with 23,139 participants met the inclusion criteria. Mean age ranged from 52 to 67 years, and females were 0% to 46% of participants. Studies recruited across the severities of COPD. Seventeen studies were of duration longer than three months and up to six months and 19 studies were of duration longer than six months. We judged the overall risk of bias as low.  Long-term (more than six months) use of ICS as monotherapy reduced the mean rate of exacerbations in those studies where pooling of data was possible (generic inverse variance analysis: rate ratio 0.88 exacerbations per participant per year, 95% confidence interval (CI) 0.82 to 0.94; I2 = 48%, 5 studies, 10,097 participants; moderate-certainty evidence; pooled means analysis: mean difference (MD) -0.05 exacerbations per participant per year, 95% CI -0.07 to -0.02; I2 = 78%, 5 studies, 10,316 participants; moderate-certainty evidence). ICS slowed the rate of decline in quality of life, as measured by the St George's Respiratory Questionnaire (MD -1.22 units/year, 95% CI -1.83 to -0.60; I2 = 0%; 5 studies, 2507 participants; moderate-certainty evidence; minimal clinically importance difference 4 points). There was no evidence of a difference in all-cause mortality in people with COPD (odds ratio (OR) 0.94, 95% CI 0.84 to 1.07; I2 = 0%; 10 studies, 16,636 participants; moderate-certainty evidence). Long-term use of ICS  reduced the rate of decline in FEV1 in people with COPD (generic inverse variance analysis: MD 6.31 mL/year benefit, 95% CI 1.76 to 10.85; I2 = 0%; 6 studies, 9829 participants; moderate-certainty evidence; pooled means analysis: 7.28 mL/year, 95% CI 3.21 to 11.35; I2 = 0%; 6 studies, 12,502 participants; moderate-certainty evidence).

ADVERSE EVENTS

in the long-term studies, the rate of pneumonia was increased in the ICS group, compared to placebo, in studies that reported pneumonia as an adverse event (OR 1.38, 95% CI 1.02 to 1.88; I2 = 55%; 9 studies, 14,831 participants; low-certainty evidence). There was an increased risk of oropharyngeal candidiasis (OR 2.66, 95% CI 1.91 to 3.68; 5547 participants) and hoarseness (OR 1.98, 95% CI 1.44 to 2.74; 3523 participants). The long-term studies that measured bone effects generally showed no major effect on fractures or bone mineral density over three years. We downgraded the certainty of evidence to moderate for imprecision and low for imprecision and inconsistency.

AUTHORS' CONCLUSIONS

This systematic review updates the evidence base for ICS monotherapy with newly published trials to aid the ongoing assessment of their role for people with COPD. Use of ICS alone for COPD likely results in a reduction of exacerbation rates of clinical relevance, probably results in a reduction in the rate of decline of FEV1 of uncertain clinical relevance and likely results in a small improvement in health-related quality of life not meeting the threshold for a minimally clinically important difference. These potential benefits should be weighed up against adverse events (likely to increase local oropharyngeal adverse effects and may increase the risk of pneumonia) and probably no reduction in mortality. Though not recommended as monotherapy, the probable benefits of ICS highlighted in this review support their continued consideration in combination with long-acting bronchodilators. Future research and evidence syntheses should be focused in that area.

GINA 2020: Potential Impacts, Opportunities, and Challenges for Primary Care

In 2019, it was reported that changes to asthma management reported in the Global Initiative for Asthma (GINA) "…might be considered the most fundamental changes in asthma management in 30 years." These changes refer to the recommendation that the treatment of asthma in adolescents and adults would no longer include short-acting ß₂-agonist (SABA) only, but that people with asthma should receive either symptom-driven inhaled corticosteroids (ICS)-containing treatment (mild asthma) or daily ICS-containing treatment. The fundamental reason for this shift was driven by concerns about the risks and consequences associated with SABA-only treatment, the need to improve the day-to-day management of asthma symptoms to prevent exacerbations and emergent evidence. These recommendations have subsequently been reinforced and characterized in GINA 2020, and it is reasonable to say that they are significant, not only in terms of an asthma management framework but also as a management approach in practice. This opinion article specifically focuses on opportunities and challenges associated with the implementation of GINA 2020 in primary care practice that need to be recognized and addressed if the shift in asthma treatment paradigm is to be successfully implemented into day-to-day practice.

Inhaled anticholinergics and short-acting beta(2)-agonists versus short-acting beta2-agonists alone for children with acute asthma in hospital

BACKGROUND

Inhaled anticholinergics given in addition to β2-agonists are effective in reducing hospital admissions in children presenting to the emergency department with a moderate to severe asthma exacerbation. It seems logical to assume a similar beneficial effect in children hospitalised for an acute asthma exacerbation.

OBJECTIVES

To assess the efficacy and safety of anticholinergics added to β2-agonists as inhaled or nebulised therapy in children hospitalised for an acute asthma exacerbation. To investigate the characteristics of patients or therapy, if any, that would influence the magnitude of response attributable to the addition of anticholinergics.

SEARCH METHODS

We identified trials from the Cochrane Airways Group Specialised Register of trials (CAGR), which is derived through systematic searches of bibliographic databases including the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, EMBASE, CINAHL, AMED and PsycINFO and through handsearching of respiratory journals and meeting abstracts. The search is current to November 2013.

SELECTION CRITERIA

Randomised trials comparing the combination of inhaled or nebulised anticholinergics and short-acting β2-agonists versus short-acting β2-agonists alone in children one to 18 years of age hospitalised for an acute asthma exacerbation were eligible.

DATA COLLECTION AND ANALYSIS

Two review authors independently assessed the methodological quality of trials and extracted data; disagreement was resolved by consensus or with the input of a third review author, when needed. Primary outcomes were duration of hospital stay and serious adverse events. Secondary outcomes included admission and duration of stay in the intensive care unit (ICU), ventilation assistance, time to short-acting β2-agonists spaced at four hours or longer, supplemental asthma therapy, duration of supplemental oxygen, change from baseline in asthma severity, relapse after discharge, adverse health effects and withdrawals.

MAIN RESULTS

Seven randomised trials were included, four of which reported usable data on 472 children with asthma one to 18 years of age who were admitted to paediatric wards. No trials included patients admitted to the ICU. The anticholinergic used, ipratropium bromide 250 μg, was given every one to eight hours over a period from four hours to the entire length of the hospital stay. Two of four trials (50%) contributing data were deemed of high methodological quality. The addition of anticholinergics to β2-agonists showed no evidence of effect on the duration of hospital admission (mean difference (MD) -0.28 hours, 95% confidence interval (CI) -5.07 to 4.52, 3 studies, 327 participants, moderate quality evidence) and no serious or non-serious adverse events were reported in any included trials. As a result of the similarity of trials, we could not explore the influence of age, admission site, intensity of anticholinergic treatment and co-interventions on primary outcomes. No statistically significant group difference was noted in other secondary outcomes, including the need for supplemental asthma therapy, time to short-acting β2-agonists spaced at four hours or longer, asthma clinical scores, lung function and overall withdrawals for any reason.

AUTHORS' CONCLUSIONS

In children hospitalised for an acute asthma exacerbation, no evidence of benefit for length of hospital stay and other markers of response to therapy was noted when nebulised anticholinergics were added to short-acting β2-agonists. No adverse health effects were reported, yet the small number of trials combined with inadequate reporting prevent firm reassurance regarding the safety of anticholinergics. In the absence of trials conducted in ICUs, no conclusion can be drawn regarding children with impending respiratory failure. These findings support current national and international recommendations indicating that healthcare practitioners should refrain from using anticholinergics in children hospitalised for acute asthma.

Long-acting inhaled therapy (beta-agonists, anticholinergics and steroids) for COPD: a network meta-analysis

BACKGROUND

Pharmacological therapy for chronic obstructive pulmonary disease (COPD) is aimed at relieving symptoms, improving quality of life and preventing or treating exacerbations.Treatment tends to begin with one inhaler, and additional therapies are introduced as necessary. For persistent or worsening symptoms, long-acting inhaled therapies taken once or twice daily are preferred over short-acting inhalers. Several Cochrane reviews have looked at the risks and benefits of specific long-acting inhaled therapies compared with placebo or other treatments. However for patients and clinicians, it is important to understand the merits of these treatments relative to each other, and whether a particular class of inhaled therapies is more beneficial than the others.

OBJECTIVES

To assess the efficacy of treatment options for patients whose chronic obstructive pulmonary disease cannot be controlled by short-acting therapies alone. The review will not look at combination therapies usually considered later in the course of the disease.As part of this network meta-analysis, we will address the following issues.1. How does long-term efficacy compare between different pharmacological treatments for COPD?2. Are there limitations in the current evidence base that may compromise the conclusions drawn by this network meta-analysis? If so, what are the implications for future research?

SEARCH METHODS

We identified randomised controlled trials (RCTs) in existing Cochrane reviews by searching the Cochrane Database of Systematic Reviews (CDSR). In addition, we ran a comprehensive citation search on the Cochrane Airways Group Register of trials (CAGR) and checked manufacturer websites and reference lists of other reviews. The most recent searches were conducted in September 2013.

SELECTION CRITERIA

We included parallel-group RCTs of at least 6 months' duration recruiting people with COPD. Studies were included if they compared any of the following treatments versus any other: long-acting beta2-agonists (LABAs; formoterol, indacaterol, salmeterol); long-acting muscarinic antagonists (LAMAs; aclidinium, glycopyrronium, tiotropium); inhaled corticosteroids (ICSs; budesonide, fluticasone, mometasone); combination long-acting beta2-agonist (LABA) and inhaled corticosteroid (LABA/ICS) (formoterol/budesonide, formoterol/mometasone, salmeterol/fluticasone); and placebo.

DATA COLLECTION AND ANALYSIS

We conducted a network meta-analysis using Markov chain Monte Carlo methods for two efficacy outcomes: St George's Respiratory Questionnaire (SGRQ) total score and trough forced expiratory volume in one second (FEV1). We modelled the relative effectiveness of any two treatments as a function of each treatment relative to the reference treatment (placebo). We assumed that treatment effects were similar within treatment classes (LAMA, LABA, ICS, LABA/ICS). We present estimates of class effects, variability between treatments within each class and individual treatment effects compared with every other.To justify the analyses, we assessed the trials for clinical and methodological transitivity across comparisons. We tested the robustness of our analyses by performing sensitivity analyses for lack of blinding and by considering six- and 12-month data separately.

MAIN RESULTS

We identified 71 RCTs randomly assigning 73,062 people with COPD to 184 treatment arms of interest. Trials were similar with regards to methodology, inclusion and exclusion criteria and key baseline characteristics. Participants were more often male, aged in their mid sixties, with FEV1 predicted normal between 40% and 50% and with substantial smoking histories (40+ pack-years). The risk of bias was generally low, although missing information made it hard to judge risk of selection bias and selective outcome reporting. Fixed effects were used for SGRQ analyses, and random effects for Trough FEV1 analyses, based on model fit statistics and deviance information criteria (DIC). SGRQ SGRQ data were available in 42 studies (n = 54,613). At six months, 39 pairwise comparisons were made between 18 treatments in 25 studies (n = 27,024). Combination LABA/ICS was the highest ranked intervention, with a mean improvement over placebo of -3.89 units at six months (95% credible interval (CrI) -4.70 to -2.97) and -3.60 at 12 months (95% CrI -4.63 to -2.34). LAMAs and LABAs were ranked second and third at six months, with mean differences of -2.63 (95% CrI -3.53 to -1.97) and -2.29 (95% CrI -3.18 to -1.53), respectively. Inhaled corticosteroids were ranked fourth (MD -2.00, 95% CrI -3.06 to -0.87). Class differences between LABA, LAMA and ICS were less prominent at 12 months. Indacaterol and aclidinium were ranked somewhat higher than other members of their classes, and formoterol 12 mcg, budesonide 400 mcg and formoterol/mometasone combination were ranked lower within their classes. There was considerable overlap in credible intervals and rankings for both classes and individual treatments. Trough FEV1 Trough FEV1 data were available in 46 studies (n = 47,409). At six months, 41 pairwise comparisons were made between 20 treatments in 31 studies (n = 29,271). As for SGRQ, combination LABA/ICS was the highest ranked class, with a mean improvement over placebo of 133.3 mL at six months (95% CrI 100.6 to 164.0) and slightly less at 12 months (mean difference (MD) 100, 95% CrI 55.5 to 140.1). LAMAs (MD 103.5, 95% CrI 81.8 to 124.9) and LABAs (MD 99.4, 95% CrI 72.0 to 127.8) showed roughly equivalent results at six months, and ICSs were the fourth ranked class (MD 65.4, 95% CrI 33.1 to 96.9). As with SGRQ, initial differences between classes were not so prominent at 12 months. Indacaterol and salmeterol/fluticasone were ranked slightly better than others in their class, and formoterol 12, aclidinium, budesonide and formoterol/budesonide combination were ranked lower within their classes. All credible intervals for individual rankings were wide.

AUTHORS' CONCLUSIONS

This network meta-analysis compares four different classes of long-acting inhalers for people with COPD who need more than short-acting bronchodilators. Quality of life and lung function were improved most on combination inhalers (LABA and ICS) and least on ICS alone at 6 and at 12 months. Overall LAMA and LABA inhalers had similar effects, particularly at 12 months. The network has demonstrated the benefit of ICS when added to LABA for these outcomes in participants who largely had an FEV1 that was less than 50% predicted, but the additional expense of combination inhalers and any potential for increased adverse events (which has been established by other reviews) require consideration. Our findings are in keeping with current National Institute for Health and Care Excellence (NICE) guidelines.

Impact of inhaled corticosteroid treatment on 15-year longitudinal respiratory function changes in adult patients with bronchial asthma

BACKGROUND

Bronchial asthma is mainly controlled by inhaled corticosteroid (ICS) treatment, and discontinuation of ICS treatment can worsen asthma symptoms and reduce respiratory function. However, the longitudinal impact of ICS on lung function in adult patients is unknown.

METHODS

To determine whether regular ICS treatment can prevent long-term lung function deterioration in adults with bronchial asthma, we recruited 167 adult asthma patients who first visited Fukuoka National Hospital in 1995 and underwent lung function tests in 1995, 1996 and 2010. Regular ICS treatment was continued in 102 patients (regular group), while 39 patients received irregular ICS treatment (irregular group). Changes in lung function were compared retrospectively between the groups. The influences of smoking, disease severity and disease duration were also analyzed.

RESULTS

The forced expiratory volume in 1 s (FEV₁) values increased in the regular group 1 year after the initiation of therapy, but they decreased in the irregular group. At year 15, the predicted FEV₁% had decreased significantly more in the irregular group than in the regular group (p < 0.05); FEV₁ decreased by 28.2 ml/year (SD 24.5) in the regular group and by 44.6 ml/year (32.5) in the irregular group (p < 0.05). The decrease in FEV₁ was greater in smokers than in nonsmokers, despite regular ICS treatment, and it was significantly greater in patients with severe asthma than in those with mild or intermittent disease. Delay in ICS initiation also affected the annual FEV₁ decrease.

CONCLUSIONS

Regular ICS, introduced early when symptoms are mild, could prevent lung function from worsening significantly. Smoking should be strongly discouraged in asthma patients.

Inhaled corticosteroids for stable chronic obstructive pulmonary disease

BACKGROUND

The role of inhaled corticosteroids (ICS) in chronic obstructive pulmonary disease (COPD) has been the subject of much controversy. Major international guidelines recommend selective use of ICS. Recently published meta-analyses have reported conflicting findings on the effects of inhaled steroid therapy in COPD.

OBJECTIVES

To determine the efficacy and safety of inhaled corticosteroids in stable patients with COPD, in terms of objective and subjective outcomes.

SEARCH METHODS

A pre-defined search strategy was used to search the Cochrane Airways Group Specialised Register for relevant literature. Searches are current as of July 2011.

SELECTION CRITERIA

We included randomised trials comparing any dose of any type of inhaled steroid with a placebo control in patients with COPD. Acute bronchodilator reversibility to short-term beta(2)-agonists and bronchial hyper-responsiveness were not exclusion criteria. The a priori primary outcome was change in lung function. We also analysed data on mortality, exacerbations, quality of life and symptoms, rescue bronchodilator use, exercise capacity, biomarkers and safety.

DATA COLLECTION AND ANALYSIS

Two review authors independently assessed trial quality and extracted data. We contacted study authors for additional information. We collected adverse effects information from the trials.

MAIN RESULTS

Fifty-five primary studies with 16,154 participants met the inclusion criteria. Long-term use of ICS (more than six months) did not consistently reduce the rate of decline in forced expiratory volume in one second (FEV(1)) in COPD patients (generic inverse variance analysis: mean difference (MD) 5.80 mL/year with ICS over placebo, 95% confidence interval (CI) -0.28 to 11.88, 2333 participants; pooled means analysis: 6.88 mL/year, 95% CI 1.80 to 11.96, 4823 participants), although one major trial demonstrated a statistically significant difference. There was no statistically significant effect on mortality in COPD patients (odds ratio (OR) 0.98, 95% CI 0.83 to 1.16, 8390 participants). Long-term use of ICS reduced the mean rate of exacerbations in those studies where pooling of data was possible (generic inverse variance analysis: MD -0.26 exacerbations per patient per year, 95% CI -0.37 to -0.14, 2586 participants; pooled means analysis: MD -0.19 exacerbations per patient per year, 95% CI -0.30 to -0.08, 2253 participants). ICS slowed the rate of decline in quality of life, as measured by the St George's Respiratory Questionnaire (MD -1.22 units/year, 95% CI -1.83 to -0.60, 2507 participants). Response to ICS was not predicted by oral steroid response, bronchodilator reversibility or bronchial hyper-responsiveness in COPD patients. There was an increased risk of oropharyngeal candidiasis (OR 2.65, 95% CI 2.03 to 3.46, 5586 participants) and hoarseness. In the long-term studies, the rate of pneumonia was increased in the ICS group compared to placebo, in studies that reported pneumonia as an adverse event (OR 1.56, 95% CI 1.30 to 1.86, 6235 participants). The long-term studies that measured bone effects generally showed no major effect on fractures and bone mineral density over three years.

AUTHORS' CONCLUSIONS

Patients and clinicians should balance the potential benefits of inhaled steroids in COPD (reduced rate of exacerbations, reduced rate of decline in quality of life and possibly reduced rate of decline in FEV(1)) against the potential side effects (oropharyngeal candidiasis and hoarseness, and risk of pneumonia).

Internet survey of childhood asthma and use of inhaled therapy in the home in Japan

BACKGROUND

The aim of the present study is to undertake a survey of childhood asthma and details of the use of inhaled therapy from mothers with asthmatic children </=15 years old, using the Internet.

METHODS

This study was done on a nationwide scale in Japan during the latter half of July 2001.

RESULTS

Responses were obtained from 748 mothers. Four hundred and three children (53.9%) had been diagnosed with asthma when </=2 years old and 263 children (35.2%) when 2-5 years old. Three hundred and ninety-seven children (53.1%) were in remission or had mild asthma, 295 children (39.4%) had moderate asthma, and 56 (7.5%) had severe asthma. Of 563 children who required some pharmacological treatment, 266 used inhaled therapy. One hundred and forty-four children used metered-dose inhaler (MDI), 136 used powered nebulizer, and 34 used dry powder inhaler (DPI). Of children treated with inhaled sodium cromoglycate, 63 used MDI, 129 used nebulizer solution and 23 used DPI. Of children treated with inhaled corticosteroids, 43 used MDI and six used DPI. Of children using powered nebulizer, 48 were well satisfied and 76 were slightly satisfied. More than 90% of mothers commented that this form of treatment improved the quality of life both of the asthmatic children and of the family.

CONCLUSION

Internet survey of childhood asthma is effective, and powered nebulizer therapy may be encouraged more acceptable by infants and young children in the treatment of asthma.

Inhaled corticosteroids for stable chronic obstructive pulmonary disease

BACKGROUND

The role of inhaled corticosteroids (ICS) in chronic obstructive pulmonary disease (COPD) has been the subject of much controversy. Major international guidelines recommend selective use of ICS. Recently published meta-analyses have reported conflicting findings on the effects of inhaled steroid therapy in COPD.

OBJECTIVES

The objective of the review is to determine the efficacy of regular use of inhaled corticosteroids in patients with stable COPD.

SEARCH STRATEGY

A pre-defined search strategy was used to search the Cochrane Airways Group specialised register for relevant literature. Searches are current as of October 2006.

SELECTION CRITERIA

We selected randomised trials comparing any dose of any type of inhaled steroid with a placebo control in patients with COPD. Acute bronchodilator reversibility to short term beta2-agonists and bronchial hyperresponsiveness were not exclusion criteria. The a priori primary outcome was change in lung function. Data on mortality, exacerbations, quality of life and symptoms, rescue bronchodilator use, exercise capacity, biomarkers and safety were also analysed.

DATA COLLECTION AND ANALYSIS

Two review authors independently assessed trial quality and extracted data. Study authors were contacted for additional information. Adverse effects information was collected from the trials.

MAIN RESULTS

Forty-seven primary studies with 13,139 participants met the inclusion criteria. Medium term use of ICS (> two months and up to six months) resulted in a small improvement in FEV1 in some studies. Long term use of ICS (> six months) did not significantly reduce the rate of decline in FEV1 in COPD patients (weighted mean difference (WMD) 5.80 ml/year with ICS over placebo, 95% CI -0.28 to 11.88, 2333 participants). There was no statistically significant effect on mortality in COPD patients (OR 0.98, 95% CI 0.83 to 1.16, 8390 participants). Long term use of ICS reduced the mean rate of exacerbations in those studies where pooling of data was possible (WMD -0.26 exacerbations per patient per year, 95% CI -0.37 to -0.14, 2586 participants). ICS slowed the rate of decline in quality of life, as measured by the St George's Respiratory Questionnaire (WMD -1.22 units/year, 95% CI -1.83 to -0.60, 2507 participants). Response to ICS was not predicted by oral steroid response, bronchodilator reversibility or bronchial hyper-responsiveness in COPD patients. There was an increased risk of oropharyngeal candidiasis (OR 2.49, 95% CI 1.78 to 3.49, 4380 participants) and hoarseness. The few long term studies that measured bone effects generally showed no major effect on fractures and bone mineral density over 3 years.

AUTHORS' CONCLUSIONS

Patients and clinicians should balance the potential benefits of inhaled steroids in COPD (reduced rate of exacerbations, reduced rate of decline in quality of life), against the known increase in local side effects (oropharyngeal candidiasis and hoarseness). The risk of long term adverse effects is unknown.

Effects of early intervention with inhaled sodium cromoglycate in childhood asthma

International and Japanese guidelines classify childhood asthma as mild, moderate, or severe, and recommend treatment with "as needed" bronchodilators, inhaled sodium cromoglycate, and inhaled corticosteroids, respectively. Alternatively, some investigators proposed inhaled corticosteroids as first-line therapy to prevent airway inflammatory obstruction. This article describes a clinical study assessing the effect of early intervention with inhaled sodium cromoglycate in childhood asthma. This was a retrospective study of 189 asthmatic children treated with inhaled sodium cromoglycate for five years and whose age of onset of asthma was six year of age or younger. An end-of-study questionnaire completed the examination. Children administered oral or inhaled corticosteroids simultaneously with sodium cromoglycate, were excluded. Asthma scores as defined by the Japanese Pediatric Allergic Committee, were reduced continuously during the five years after the start of sodium cromoglycate treatment. The frequency of emergency department visits and hospitalizations also decreased. Significant between-period intervention differences showed improvement of clinical outcomes for children with severe asthma during the five years of sodium cromoglycate inhalation. The early intervention regime of starting sodium cromoglycate inhalation within two years of the onset of asthma shows a large improvement in the long-term prognosis of childhood asthma, especially for children with severe asthma. It is possible that starting inhaled sodium cromoglycate earlier than the present recommendation of corticosteroids could further improve clinical outcomes, but a prospective study should be performed to verify our results.

Characteristics of asthma resistant to moderate dose inhaled corticosteroid treatment on bronchial hyperresponsiveness

OBJECT

This study was performed to determine the clinical characteristics of asthmatics with bronchial hyperresponsiveness (BHR) that could not be normalized by 6 months of treatment with a moderate dose of an inhaled corticosteroid (ICS).

METHODS

Thirty-four symptomatic patients with mild to moderate asthma, who had never received any ICS, were treated with 200 mug of inhaled fluticasone propionate twice a day for 6 months. Spirometry, BHR to methacholine, exhaled nitric oxide (NO) and eosinophils in induced sputum were examined before and 2 and 6 months after beginning treatment.

RESULTS

FEV1 was increased and bronchial responsiveness, exhaled NO and sputum eosinophilia were significantly decreased 2 and 6 months after starting ICS treatment. Bronchial responsiveness was further decreased at 6 months together with a further increase in FEV1. In 13 patients, BHR was not normalized despite the 6 months of treatment. This group showed a higher prevalence of males, those with a smoking history and airflow limitation, a higher eosinophil count in the sputum following 6 months of treatment and a longer history of asthma. Multiple, stepwise, linear regression analysis showed that sputum eosinophilia and lower FEV1/FVC following 6 months of treatment and a longer history of asthma were significant independent determinants for BHR after 6 months of ICS treatment.

CONCLUSIONS

These findings suggest that the resistance to a moderate dose of ICS for BHR in asthmatics may be significantly associated with remained airflow limitation, eosinophilic airway inflammation resistive to moderate dose of ICS, and delayed introduction of ICS therapy.

Structural changes in the airways in asthma: observations and consequences

Structural changes reported in the airways of asthmatics include epithelial fragility, goblet cell hyperplasia, enlarged submucosal mucus glands, angiogenesis, increased matrix deposition in the airway wall, increased airway smooth muscle mass, wall thickening and abnormalities in elastin. Genetic influences, as well as fetal and early life exposures, may contribute to structural changes such as subepithelial fibrosis from an early age. Other structural alterations are related to duration of disease and/or long-term uncontrolled inflammation. The increase in smooth muscle mass in both large and small airways probably occurs via multiple mechanisms, and there are probably changes in the phenotype of smooth muscle cells, some showing enhanced synthetic capacity, others enhanced proliferation or contractility. Fixed airflow limitation is probably due to remodelling, whereas the importance of structural changes to the phenomenon of airways hyperresponsiveness may be dependent on the specific clinical phenotype of asthma evaluated. Reduced compliance of the airway wall secondary to enhanced matrix deposition may protect against airway narrowing. Conversely, in severe asthma, disruption of alveolar attachments and adventitial thickening may augment airway narrowing. The encroachment upon luminal area by submucosal thickening may be disadvantageous by increasing the risk of airway closure in the presence of the intraluminal cellular and mucus exudate associated with asthma exacerbations. Structural changes may increase airway narrowing by alteration of smooth muscle dynamics through limitation of the ability of the smooth muscle to periodically lengthen.

The use of sterically stabilized liposomes to treat asthma

Asthma is characterized by airway hyperresponsiveness, chronic inflammation, and airway remodeling, which may lead to progressive, irreversible lung damage. Liposomes have been used for the delivery of aerosolized asthma medications into the lungs. This method could facilitate sustained action of steroids while using only a fraction of the dosage and a less frequent dosing interval than conventional therapy. We describe the evaluation of the effect of budesonide encapsulated in sterically stabilized liposomes on lung inflammation and airway hyperreactivity in a mouse model of asthma. We outline the determination of markers implicated in the progression of asthma, including histopathology, eosinophil peroxidase activity in bronchoalveolar lavage, and airway hyperresponsiveness to methacholine. Weekly administration of budesonide in sterically stabilized liposomes results in a significant reduction in the total lung inflammation score, peripheral blood eosinophil counts, and the total serum IgE level, similar to that obtained with daily budesonide. Airway hyperresponsiveness to methacholine challenge decreases significantly in the group treated with weekly budesonide in sterically stabilized liposomes, while it does not decrease in the daily budesonide group.

Obtaining optimal control in mild asthma: theory and practice

BACKGROUND

Studies have shown that asthma severity is easily under-estimated and as a result, patients may be under-treated with reduced asthma control.

OBJECTIVE

This study, performed in the General Practice Research Database (GPRD), investigates asthma control in patients treated as intermittent asthmatics (short-acting beta agonist (SABA) alone), or persistent asthmatics (additional inhaled cortico-steroid (ICS), no other medication).

METHODS

Patients (0-45 years) diagnosed with asthma between 1 January 1995 and 31 December 2001 taking > or =2 scripts for SABA (SABA only group) or > or =3 scripts for ICS (ICS group) in the first six months following diagnosis were selected. Factors associated with drug prescriptions were assessed.

RESULTS

SABA script rates were 3.6 and 5.1 per year in the SABA and ICS group respectively, i.e. >1 dose/day. 10.5% of SABA group and 13.4% of ICS group used oral steroids. Within the SABA group, 37% were stepped up to ICS, the time to first ICS script being significantly associated with prior hospitalization (RR 2.26, CI 1.65-3.10) and atopy (RR 1.47, CI 1.33-1.63). A higher rate of oral steroid use was significantly associated with using ICS, being female, adult and smoking. Smokers and atopic individuals had increased risk of obtaining an earlier script for oral steroid (RR 1.32, CI 1.10-1.59 and RR 1.28, CI 1.10-1.49, respectively).

CONCLUSIONS

Asthma control was sub-optimal in a substantial proportion of patients using relatively high doses of SABA, or SABA and ICS from the outset of asthma treatment in general practice. Being female, atopic, a smoker and prior hospitalization were all associated with lack of asthma control and could guide physicians in treatment prescribing.

Long-acting beta2-agonists: comparative pharmacology and clinical outcomes

Salmeterol and formoterol are both long-acting beta(2)-adrenoceptor agonists (beta(2)-agonists). They both provide excellent bronchodilating and bronchoprotective effects in patients with asthma but their are some differences between these two long-acting beta(2)-agonists in vitro and in vivo. Formoterol has a greater potency and intrinsic activity than salmeterol, which can become especially apparent at higher doses than that clinically recommended, and in contracted bronchi. Long-term use of long-acting beta(2)-agonists can induce tolerance, which can be partially reversed with corticosteroids. Long-acting beta(2)-agonists have some anti-inflammatory effects in vitro, but data in vivo are less convincing. Compared with doubling the dose of inhaled corticosteroids, the addition of inhaled long-acting beta(2)-agonists to inhaled corticosteroids improves symptom control in patients with asthma and reduces both the exacerbation rate of asthma and hospital admission rate. No enhanced airway responsiveness or loss of perception of dyspnea has been observed with the use of inhaled long-acting beta(2)-agonists. Monotherapy with long-acting beta(2)-agonists is not recommended.

Airway remodeling in asthma: therapeutic implications of mechanisms

Asthma is currently recognized as a chronic inflammatory disorder of the airways that leads to tissue injury and subsequent structural changes collectively called airway remodeling. Transgenic modeling of inflammatory mediators allows for the discovery of unexpected effects, dissection of downstream signaling events, and clues to future therapies.

Impact of inhaled corticosteroids and leukotriene receptor antagonists on airway remodeling

Asthma is a chronic inflammatory disease of the airways that is characterized by the presence of inflammatory cells and remodeling, a term used to define complex morphological changes involving all the structures of the bronchial wall (e.g., goblet cell hyperplasia of the epithelium, thickening of reticular basement membrane, increases of airway smooth muscle[ASM], and blood vessels). An important factor in the pathophysiology of asthma is the recognition that airway inflammation and airway remodeling are linked, as they are in other chronic inflammatory diseases. First-line therapy of persistent asthma involves the use of inhaled corticosteroids to control the underlying inflammation of the airways. Because remodeling of the airway wall is thought to be a result of chronic inflammation within the bronchial wall, it follows that because steroids reduce or reverse inflammation, they may also prevent or modulate remodeling. It has been revealed that steroids improve the subepithelial fibrosis and also significantly reduce airway vascularity. The cysteinyl leukotrienes receptor antagonists may also be helpful regarding the targeting of the inflammation and remodeling in asthma. However,long-term studies were needed to appreciate the prevention and treatment of remodeling by drug therapies.

Efficacy of inhaled steroids in undiagnosed subjects at high risk for COPD: results of the detection, intervention, and monitoring of COPD and asthma program

BACKGROUND AND AIM

COPD leads to a progressive decline of pulmonary function. Family physicians treat a substantial number of patients with COPD and are encouraged to start treatment at as early a stage as is possible. This study analyzed the effectiveness of early inhaled corticosteroid treatment on the decline of pulmonary function in COPD patients.

PATIENTS AND SETTING

Subjects with a rapid decline in lung function (ie, FEV(1) decline, > 80 mL/yr) who had never before received a diagnosis of asthma or COPD.

METHODS

Two-year, randomized, controlled, double-blind clinical trial of fluticasone propionate (250 microg bid; 24 patients) or placebo (25 patients), followed by a 7-month open-label study in which all subjects received fluticasone propionate. The primary outcome was the post-bronchodilator therapy FEV(1,) and secondary outcomes were respiratory symptoms, exacerbations, health state, quality of life, and health-care utilization.

RESULTS

After 31 months, there were no statistical differences in post-bronchodilator therapy FEV(1) between the intervention group and the control group. No statistical differences were observed for symptoms, exacerbations, or quality of life, although tendencies were consistently in favor of treatment. There was no significant impact on the direct or indirect costs.

CONCLUSIONS

There are no indications that early treatment with inhaled corticosteroids modifies a rapid decline in lung function or respiratory symptoms and quality of life.

Compatibility of budesonide inhalation suspension with four nebulizing solutions

BACKGROUND

Nebulizable medications often are mixed to simplify asthma medication regimens.

OBJECTIVE

To establish the in vitro chemical compatibility and stability of budesonide inhalation suspension 0.25 mg/2 mL and 0.5 mg/2 mL mixed in Pari LC Plus jet nebulizer cups with 3 mL of levalbuterol hydrochloride 0.63 mg/3 mL and 1.25 mg/3 mL; 0.5 mL of albuterol sulfate 5 mg/mL; 2 mL of cromolyn sodium 20 mg/2 mL; or 2.5 mL of ipratropium bromide 0.2 mg/mL.

METHODS

We developed and validated isocratic HPLC methods to permit separation of the admixture components from aliquots taken 0, 5, 15, and 30 minutes after mixing. Admixtures were prepared and analyzed at room temperature. Each assay was conducted 3 times using separate nebulizer cups. All components were quantified by external standards using HPLC-derived peak area. Appearance and pH of the admixtures were recorded.

RESULTS

No additional peaks occurred in any HPLC chromatogram for any medication from any admixture. With the exception of ipratropium bromide at 93%, each admixture retained >97% of the initial concentration of each medication in the nebulizer cup. There was no significant change in pH or visual identification of a precipitate in any admixture of active drugs.

CONCLUSIONS

These data support the chemical compatibility of budesonide inhalation suspension for up to 30 minutes with other commonly used nebulized medications for controlling pediatric asthma symptoms.

Pharmacotherapy and airway remodelling in asthma?

Over the last few decades attention has largely focused on airway inflammation in asthma, but more recently it has been appreciated that there are important structural airway changes which have been grouped together under the term "airway remodelling". It is only now that questions have been asked about the impact of treatment on these structural changes. This review examines the nature of these structural airway changes, the mechanisms of their generation, their potential consequences, and what is known about the ability of anti-asthma treatments to modulate these changes.

Fluticasone inhibits the progression of allergen-induced structural airway changes

BACKGROUND

Inhaled corticosteroids are widely used as first-line therapy in patients with asthma. The concept of early introduction is more and more accepted.

OBJECTIVE

In our rat model of airway remodelling, we investigated whether treatment with inhaled fluticasone propionate can inhibit further progression of established structural airway changes.

METHODS

Sensitized Brown Norway rats were exposed to aerosolized ovalbumin (1%) from day 14 to 42. From day 28 to 42, animals were treated with inhaled fluticasone or placebo 30 min before each allergen challenge. One control group was exposed to PBS from day 28 to 42, a second control group throughout the whole experiment.

RESULTS

Exposure to ovalbumin during 2 weeks induced structural airway changes, including epithelial cell proliferation, increase in airway wall area and fibronectin deposition. Goblet cell number was increased, although not significantly compared with PBS. Continuing allergen exposure for 2 weeks further enhanced each of these features. In addition, the amount of collagen in the airway wall was enhanced by 4 weeks allergen exposure compared with PBS-exposed animals. These additional increases were inhibited by treatment with fluticasone during the last 2 weeks.

CONCLUSION

The progression of established allergen-induced structural airway changes in sensitized rats can be inhibited by treatment with fluticasone.

Irreversible airway obstruction in childhood asthma? A clinician's viewpoint

Even though childhood asthma is assumed to comprise reversible airway obstruction, some children develop irreversible airway obstruction (not reversed by a bronchodilator or corticosteroids); this may be due to inflammation that has caused remodeling. Lately, it has been claimed that in the absence of treatment with inhaled corticosteroids, most patients will develop progressive irreversible obstruction. Several studies culminating with the Childhood Asthma Management Program (CAMP) study, which was the first randomized placebo-controlled prospective long-term study designed to test for irreversible obstruction, did not show the development of such progressive irreversible obstruction. Nevertheless, deterioration in pulmonary function does occur in some patients, probably due to inadequate anti-inflammatory treatment, and possibly also due to maintenance adrenergic treatment. Most previous studies concentrated on forced expiratory volume in 1 sec (FEV(1)), a test assessing mostly large airway obstruction. More studies are needed to investigate the presence of small airway obstruction.

Step one for asthma treatment: Beta2-agonists or inhaled corticosteroids?

Inhaled corticosteroids have proven effectiveness in chronic persistent asthma and are now recommended as first-line therapy in this condition. In contrast, long term preventative therapy is not currently considered necessary for patients with disease that is only mild and episodic. Recently, there has been growing interest in the possible benefits of using inhaled corticosteroids at an earlier stage in asthma, as soon as the condition is diagnosed. The concept of early intervention is supported by the recognition that airway inflammation is common to all grades of asthma, including early and mild disease. A number of studies have suggested that delayed introduction of inhaled corticosteroids in asthma can result in a poorer clinical response. The precise reason for this is unknown, although it may result from persistent uncontrolled inflammation leading to airway remodelling associated with airflow obstruction that is relatively resistant to therapy. There have also been suggestions that early intervention may alter the natural history of the disease, either to induce sustained remission or to prevent long term decline in lung function, but these effects have yet to be clearly established. On the basis of present knowledge, early intervention remains controversial, particularly in children. The Steroid Treatment As Regular Therapy (START) trial is a large, placebo-controlled, multicentre study that is currently comparing early and delayed use of inhaled corticosteroids in adults and children with newly diagnosed asthma. It is hoped that this study will resolve some of the present uncertainties, and lead to a better understanding of whether an early intervention strategy in asthma can be justified.

Initial improvements in lung function and bronchial hyperresponsiveness are maintained during 5 years of treatment with inhaled beclomethasone dipropionate and terbutaline

OBJECTIVES

Treatment with inhaled corticosteroids reduces bronchial hyperresponsiveness and relieves airways obstruction in patients with asthma. Up to now, it is unknown whether initial improvements are maintained over a long period of time. Therefore, we assessed whether initial improvements in FEV(1), provocative concentration of histamine causing a 20% fall in FEV(1) (PC(20)), and peak expiratory flow (PEF) persist with a constant dose of inhaled corticosteroids. Furthermore, we investigated whether FEV(1), PC(20), PEF indexes, and symptom scores improve after increasing the dose of inhaled corticosteroids in patients who did not respond sufficiently to treatment with beclomethasone dipropionate (BDP), 800 microg/d.

METHODS

Sixty-eight patients with bronchial hyperresponsiveness and airways obstruction completed a previous study on 3 years of treatment with terbutaline, 500 microg qid, and BDP, 200 microg qid. Fifty-eight of these patients participated in the current extension of another 2.5 years of follow-up. Every 6 months, FEV(1) and PC(20) were measured. Five patients dropped out of the study, one for pulmonary reasons. Forty-four patients continued treatment with BDP, 800 microg/d (BDP-800 group), and 9 patients received a higher dose of BDP (500 microg tid; BDP-1,500 group) after the first 3 years because of a rapid decline in FEV(1) (> 50 mL/yr) despite BDP treatment during the previous study period.

RESULTS

After the initial improvement, the mean slope of individual regression lines for FEV(1), PC(20), and morning PEF were - 28 mL/yr, - 0.01 doubling concentrations per year, and 0.6 L/min/yr, respectively, in the BDP-800 group. In the BDP-1,500 group, there were no statistically significant improvements in FEV(1), PC(20), PEF indexes, and symptom scores after increasing the dose of BDP.

CONCLUSIONS

We conclude that initial improvements in FEV(1), PC(20), and PEF are well preserved over 5 years in patients with obstructive airways diseases who are treated with terbutaline and BDP. In the patients who responded sufficiently to 800 microg/d of BDP, there was no accelerated decline in FEV(1) compared with the general population. Increasing the dose of BDP in a small group of patients with an accelerated fall in FEV(1) (initially treated with a moderate dose of BDP) resulted in no significant improvement in FEV(1), PC(20), PEF indexes, and symptom scores.

The cost effectiveness of early treatment with fluticasone propionate 250 microg twice a day in subjects with obstructive airway disease. Results of the DIMCA program

In a two-stage detection program, subjects with signs of obstructive airway disease were selected from a random sample of the general population. Subjects (n = 82) were randomly assigned to either fluticasone propionate 250 microg twice a day or placebo twice a day via pMDI in a 1-yr, double-blind trial if they met criteria for persistent airway obstruction, increased bronchial hyperresponsiveness, or a rapid decline in FEV(1). Main outcome measures were postbronchodilator FEV(1), quality-adjusted life years (QALYs), and direct medical cost. Secondary measures were prebronchodilator FEV(1), PC(20), health-related quality of life (CRQ), symptom-free weeks, episode-free weeks, exacerbations, and indirect cost. Subgroup analysis was based on reversibility of obstruction. Analysis revealed a significant gain in postbronchodilator FEV(1) (98 ml/yr; p = 0.01) in favor of fluticasone. Only subjects with reversible obstruction showed an improvement in PC(20) (1.4 doubling dose; p = 0.03). Early treatment resulted in 2.7 QALYs gained per 100 treated subjects (p = 0.17) and in a clinically relevant improvement in dyspnea (CRQ; p < 0.03). The incremental cost effectiveness ratios were US$13,016/QALY for early treatment and US$33,921/QALY for the combination of detection and treatment. The incremental cost for one additional subject with a clinically relevant difference in dyspnea was US$1,674. In conclusion, early intervention with fluticasone resulted in significant health gains at relatively low financial cost.

Features of asthma in the elderly

Asthma has been considered a rare disease in the elderly, but recent studies have shown that it is as common in the elderly as in the middle-aged population. Diagnosis of asthma is often overlooked in older patients, leading to undertreatment. Spirometry, determination of expiratory flow lability, and histamine challenge tests are tools that are as usefulfor the evaluation of elderly asthmatics as they areforyoungerpatients. Asthma is more severe in the elderly, especially in long-standing asthmatics. Treatment of asthma in the elderly should follow the same stepwise guidelines that are recommended for all age groups, though it will require more intense monitoring. An aggressive treatment approach to mild and moderate asthma in young people is the best hope of changing the future trends of asthma in the elderly.

Challenges in assessing outcomes for pediatric asthma

Although progress has been made in understanding asthma, much remains unknown; as a result, diagnosis and treatment are not optimal. Information is still needed about the natural history of asthma to better understand which patients are at risk of inflammation and at what point during their disease that inflammation occurs. In the case of children, a greater understanding of the disease's natural history is needed to establish criteria for early diagnosis and to evaluate progressive aspects of the disease so that appropriate measures of progression can be defined. The safety of various medications used as long-term controllers must also be evaluated. The growing information about medication effects on asthma provides unique opportunities to design studies that will guide improvement in asthma care. A number of disease outcomes can be used as surrogate markers of clinically significant endpoints, and a number of adverse effects may serve as surrogate markers. The consequences of poor control of pediatric asthma can be observed in a variety of clinical markers, including clinical features of the disease that worsen as it progresses, pulmonary function deterioration, lung hyperexpansion, and inflammation increases. The Childhood Asthma Management Program is an ongoing clinical trial designed to improve the diagnosis and treatment of asthma in children. Its hypothesis is that anti-inflammatory treatment of childhood asthma will not only relieve morbidity but will also improve lung growth.

Inhaled corticosteroids as first-line therapy for asthma. Why they work--and what the guidelines and evidence suggest

Despite a plethora of clinical guidelines and evidence outlining the efficacy of inhaled corticosteroids, these medications continue to be underused in the treatment of asthma. This article reviews the justification for prescribing inhaled steroids as first-line therapy, discusses indications for their use, and compares potencies of the various products now available. In addition, the authors address the adverse effects commonly associated with these agents and provide evidence supporting early intervention with inhaled steroids in the treatment of persistent asthma.

Fluticasone inhibits but does not reverse allergen-induced structural airway changes

Ethical and technical reasons limit the possibility of evaluating the effects of inhaled corticosteroids on structural changes in airways of humans with asthma. We therefore evaluated whether fluticasone propionate (FP) modifies airway remodeling, induced by repeated allergen exposure in rats. Sensitized BN rats were exposed to aerosolized ovalbumin (OA) for 2 wk. To assess the effect of FP on the development of or on established airway remodeling, animals were treated with aerosolized FP or placebo during allergen exposure or for 2 wk afterward. Compared with animals exposed to phosphate-buffered saline (PBS), OA-challenged animals developed an increase in total airway wall area, enhanced fibronectin deposition, epithelial cell proliferation, goblet cell hyperplasia, and airway hyperresponsiveness. Concomitant treatment with FP decreased all allergen-induced structural changes without being able to reverse them to normal. Initiating FP treatment after the allergen exposure had no effect on any of the OA-induced structural airway changes. The increase in total airway wall area, enhanced fibronectin deposition, and epithelial cell proliferation persisted. The goblet cell hyperplasia disappeared spontaneously. In conclusion, concomitant treatment with FP partly inhibits structural airway changes as well as hyperresponsiveness induced by OA exposure. Post hoc treatment fails to reverse established airway remodeling.

Advair: combination treatment with fluticasone propionate/salmeterol in the treatment of asthma

Several classes of medications are available for the treatment of asthma, and often they must be taken concurrently to achieve asthma control. Based on the understanding of asthma as an inflammatory disease, the National Heart Lung and Blood Institute guidelines provide a stepwise approach to pharmacologic therapy. Corticosteroid therapy, principally inhaled corticosteroid (ICS) therapy, is considered the most effective anti-inflammatory treatment. In cases of moderate-to-severe persistent asthma, the addition of a second long-term control medication to ICS therapy is one recommended treatment option. A combination-product inhaler (Advair, Seretide) was developed to treat both the inflammatory and bronchoconstrictive components of asthma by delivering a dose of the ICS, fluticasone propionate, and a dose of the long-acting beta2-adrenergic (LABA) bronchodilator, salmeterol. The Advair Diskus is available in 3 strengths of fluticasone propionate (100, 250, and 500 microg) and a fixed dose (50 microg) of salmeterol. Combination treatment with both ICS and LABA provides greater asthma control than increasing the ICS dose alone, while at the same time reducing the frequency and perhaps the severity of exacerbations. Furthermore, salmeterol added to ICS therapy provides superior asthma control compared with the addition of leukotriene modifiers or theophylline. The superior control is likely a consequence of the complementary actions of the drugs when taken together, including the activation of the glucocorticoid receptor by salmeterol. By combining anti-inflammatory treatment with a long-acting beta2-agonist in a single inhaler (1 inhalation twice daily), physicians can provide coverage for both the inflammatory and bronchoconstrictive aspects of asthma without introducing any new or unexpected adverse consequences. The most common drug-related adverse events were those known to be attributable to the constituent medications (ICS therapy and/or LABA therapy). Although the benefits of combined ICS plus LABA therapy can be achieved with separate inhalers, the convenience of the combination product may improve patient adherence and may therefore reduce the morbidity of asthma.

Fluticasone propionate and budesonide do not influence bone metabolism in the long term treatment of asthma

BACKGROUND

Inhaled corticosteroids (ICS) are recommended in the treatment of asthmatic patients. They have been said to be efficacious in the treatment of asthma in respect to cortisol and bone metabolism.

METHODS

The effects of the two inhaled corticosteroid, budesonide (BUD) and fluticasone propionate (FP) on bone metabolism, morning cortisol and their effects on the clinical parameters (FEV1, diurnal variation of peak expiratory flow rate = PEFR and log PC20) were examined in a group of 16 asthmatic patients. Eight patients used 800 micrograms/daily BUD and 8,400 micrograms/daily FP during 6 months period.

RESULTS

Both BUD and FP improved clinical parameters as determined by FEV1 (p < 0.05) and PEFR (p < 0.01). There was no difference in respect to log PC20 values in either group (p > 0.05). Both treatments didn't change morning cortisol (p < 0.05). Both FP and BUD didn't change any indices of bone formation as determined by serum alkaline phosphatase, bone alkaline phosphatase, osteocalcin and carboxyterminal propeptide of type 1 procollagen and bone resorption as determined by urinary calcium and deoxypyridinoline (p > 0.05). In addition there was no significant effect on calcium and phosphate metabolism (serum calcium, phosphate and parathyroid hormone).

CONCLUSION

As a result, having no adverse effect on bone metabolism and adrenal function, in the regard to clinical efficacy, FP is as effective as the double dose of BUD on PEFR and FEV1.

Distinguishing chronic obstructive pulmonary disease from asthma

Asthma and chronic obstructive pulmonary disease (COPD) are the most common chronic respiratory diseases in the UK. Good management of both diseases results in better symptom control and improved quality of life for the patient, but will rely on all members of the primary healthcare team sharing the aims of management as well as helping to implement those goals. The two diseases share many clinical features and similar drugs can be used to treat them both. However there are important clinical differences which help to distinguish them from each other. The management of the two diseases differs in drug regimens and in the long-term aims of management. This article clarifies the important features that distinguish asthma from COPD and which allow patients to receive the best specific management.

Long-term effects of budesonide or nedocromil in children with asthma

BACKGROUND

Antiinflammatory therapies, such as inhaled corticosteroids or nedocromil, are recommended for children with asthma, although there is limited information on their long-term use.

METHODS

We randomly assigned 1041 children from 5 through 12 years of age with mild-to-moderate asthma to receive 200 microg of budesonide (311 children), 8 mg of nedocromil (312 children), or placebo (418 children) twice daily. We treated the participants for four to six years. All children used albuterol for asthma symptoms.

RESULTS

There was no significant difference between either treatment and placebo in the primary outcome, the degree of change in the forced expiratory volume in one second (FEV1, expressed as a percentage of the predicted value) after the administration of a bronchodilator. As compared with the children assigned to placebo, the children assigned to receive budesonide had a significantly smaller decline in the ratio of FEV1 to forced vital capacity (FVC, expressed as a percentage) before the administration of a bronchodilator (decline in FEV1:FVC, 0.2 percent vs. 1.8 percent). The children given budesonide also had lower airway responsiveness to methacholine, fewer hospitalizations (2.5 vs. 4.4 per 100 person-years), fewer urgent visits to a caregiver (12 vs. 22 per 100 person-years), greater reduction in the need for albuterol for symptoms, fewer courses of prednisone, and a smaller percentage of days on which additional asthma medications were needed. As compared with placebo, nedocromil significantly reduced urgent care visits (16 vs. 22 per 100 person-years) and courses of prednisone. The mean increase in height in the budesonide group was 1.1 cm less than in the placebo group (22.7 vs. 23.8 cm, P=0.005); this difference was evident mostly within the first year. The height increase was similar in the nedocromil and placebo groups.

CONCLUSIONS

In children with mild-to-moderate asthma, neither budesonide nor nedocromil is better than placebo in terms of lung function, but inhaled budesonide improves airway responsiveness and provides better control of asthma than placebo or nedocromil. The side effects of budesonide are limited to a small, transient reduction in growth velocity.

The changing faces of asthma

Over the last 20 years, the understanding of the pathogenesis of asthma has changed dramatically. Asthma is now seen as a disease of chronic airway inflammation. Consequently, the paradigm of management has expanded from "as-needed bronchodilators" to include maintenance therapy with antiinflammatory medications and action plans. Health care professionals are assessing medications as potential disease-modifying drugs. To do this, they must understand the natural history of asthma and identify the markers of the disease that reflect long-term outcomes. This article reviews the way in which the concept of asthma has changed, the impact of this new knowledge on the basis of medication selection, and the options for evaluating the effect of medications on long-term outcomes. Reevaluating information will continue to expand our horizon of methods to improve asthma management.

Fibrosis and airway remodelling

The term 'airway remodelling' is now widely used to refer to the development of specific structural changes in the airway wall in asthma. Particular interest has focused on subepithelial fibrosis, myofibroblast accumulation, airway smooth muscle hyperplasia and hypertrophy, mucous gland and goblet cell hyperplasia, and epithelial disruption. The presence of these features is generally accepted, but further studies are still required to define the changes occurring more precisely at the pathological and ultrastructural levels. Attention also needs to be directed towards the existence of such changes in small airways. The natural history of the response has not been well described: remodelling is present in the airways of asthmatic children and of adults with newly diagnosed asthma, and studies that have attempted to relate the extent of remodelling to disease severity have produced conflicting findings. The role of remodelling in the progressive decline in lung function leading to fixed airflow obstruction seen in some patients is also unclear. Epidemiological studies are currently hindered by the absence of a useful non-invasive marker of remodelling. Airway remodelling is frequently assumed to be a consequence of chronic inflammation, but the precise relation between the remodelling and inflammatory components in asthma is unclear. The cellular and molecular events underlying the remodelling process are also poorly understood. There is therefore a need for the development and characterization of animal models that will allow these issues to be explored. Finally, the ability of currently available anti-asthma therapies to prevent or reverse airway remodelling is uncertain. There is some evidence that early treatment with inhaled corticosteroids can lead to improved outcome in asthma but this needs confirmation. Studies addressing the ability of corticosteroid treatment to reverse established structural changes have not produced consistent findings, and there is little information with regard to other therapies such as theophylline and antileukotriene agents. Effective treatment of airway remodelling may require the development of novel therapies directed against appropriate targets.

Tissue remodeling as a feature of persistent asthma

A chronic inflammatory process is almost invariably associated with tissue damage and healing. Healing results in repair and replacement of dead or damaged cells by viable cells. Repair usually involves 2 distinct processes: regeneration, which is the replacement of injured tissue by parenchymal cells of the same type, and replacement by connective tissue and its eventual maturation into scar tissue. In many instances both processes contribute to the healing response. Chronic inflammatory disease can therefore lead to a wide variety of consequences, from complete or partial restitution of organ structure and function to fibrosis. Asthma is characterized by a chronic inflammatory process of the airways. The ensuing healing process results in structural alterations referred to as a remodeling of the airways. The mechanisms underlying these structural alterations are still largely unknown. They are likely to be heterogeneous, leading-through the highly dynamic process of cell de-differentiation, migration, differentiation, and maturation-to changes in connective tissue deposition and to the altered restitution of airways structure, resulting in mucus gland hyperplasia, neovascularization, fibrosis, and an increase in smooth muscle mass.

The economic effects of screening for obstructive airway disease: an economic analysis of the DIMCA program

BACKGROUND

A large, population-based intervention (the DIMCA study) has shown substantial underdiagnosis of chronic obstructive pulmonary disease and asthma. Detection of undiagnosed patients by means of screening and subsequent monitoring was relatively inexpensive per detected patient, compared with other mass screening programs. The objectives of this study were to assess whether early detection according to the DIMCA protocol leads to increased utilization of health care resources and cost, other than the cost of the scheduled visits.

METHODS

In a prospective randomized consent trial, the utilization of health care resources and cost were ascertained in two groups: a screened group (n = 416) and a control group (n = 462). In a subsample of 100 screened subjects, consultation frequency before screening was compared with the frequency after screening. Subjects were a random sample from the general population of between 25 and 70 years of age.

RESULTS

During an average follow-up of 3.6 years, there were no significant differences in health care resource utilization and cost between the screened subjects and the controls. Resource utilization before screening was not significantly different from resource utilization after screening. Statistically significant differences were found within the screened group: subjects with a positive screening result (i.e., with signs or symptoms of obstructive airway disease) consulted their general practitioners 3.7 times more frequently (P = 0.001) for respiratory reasons than subjects with a negative screening result. The total health care cost due to respiratory disease in screen-positive subjects was 6.4 times higher (P = 0.008).

CONCLUSION

There were no indications that screening for obstructive airway disease led to increased cost, above that of average care.

Beclomethasone for asthma in children: effects on linear growth

BACKGROUND

Inhaled steroids play a central role in the management of childhood asthma. There is concern about their side effects, especially on growth. However asthma may also cause growth retardation. Growth rates are not stable, so randomised controlled parallel group studies are needed to assess the impact of inhaled steroids on growth. This review is confine to one inhaled steroid, beclomethasone, that is known to have significant levels of systemic absorption.

OBJECTIVES

To determine whether inhaled beclomethasone cause significant delay in the linear growth of children with asthma.

SEARCH STRATEGY

The Cochrane Airways Group asthma register was searched. Bibliographies from included studies, and known reviews were searched for additional citations. Personal contact with colleagues and researchers working in the field of asthma were made to identify potentially relevant trials.

SELECTION CRITERIA

Randomized, controlled trials comparing the effects of beclamethasone to non-steroidal medication (placebo or non-steroidal therapy) on the linear growth of children with asthma.

DATA COLLECTION AND ANALYSIS

Data related to the clinical outcome "change in growth" were extracted by two reviewers working independently

MAIN RESULTS

One hundred and fifty-nine citations were identified by the search strategy and bibliography review. Three studies met the inclusion criteria. All used beclomethasone 200 mcg twice daily delivered by dry powder Diskhaler to treat children with mild-moderate asthma. Study duration was 7-12 months. In all three studies, a significant decrease in linear growth occurred in children treated with beclomethasone compared to those receiving placebo or non-steroidal asthma therapy. The average decrease, calculated through meta-analysis, was -1.54 cm per year (95% CI -1.15, -1.94).

REVIEWER'S CONCLUSIONS

In children with mild-moderate asthma, beclomethasone 200 mcg twice daily caused a decrease in linear growth of -1.54 cm per year. These studies lasted a maximum of 54 weeks, so it remains unclear whether the decrease in growth is sustained or whether it reverses with 'catch up' after therapy is discontinued. We are unable to comment on growth effects of other inhaled steroids that have potentially less systemic effects. If inhaled steroids are required to control a child's asthma, we recommend using the minimum dose that effectively controls the child's asthma and closely following growth.

Airway remodeling and persistent airway obstruction in asthma

There is growing recognition that some patients with long-standing asthma may possess a component of irreversible airflow obstruction despite optimal therapy. This persistent airflow obstruction is thought to be the result of structural changes in the airways that occur as a result of airway remodeling. The structural changes that lead to chronic obstruction are not known, nor are the intricacies of the remodeling process. Hence airway remodeling and its role in the evolution of irreversible airflow obstruction remain conceptual. Much work has been carried out to better define the histopathologic characteristics of asthma, including the characteristic features of airway inflammation. However, attempts to delineate the physiologic consequences of specific histologic findings are at an early stage of development. The thesis that airway remodeling is driven by chronic inflammatory processes has important implications for the way we make treatment decisions, especially in the patient with mild asthma. Abounding interest in airway remodeling has led to a growing literature on the subject, a literature that is largely speculative and perhaps too tautologic in the sense that remodeling is frequently defined by any observed histologic change, irrespective of its physiologic consequences. Careful attempts to link histologic observations with clinical, demographic, and physiologic findings will be necessary to unravel the causes of remodeling and identify who is at risk for development of irreversible airway obstruction.

Early treatment of asthma

The early treatment of asthma was not greatly studied before the 1990s. Subjects included in intervention trials have usually had persistent asthma with a long duration of symptoms. Only a few studies have been done on early intervention. It has also become obvious that eosinophilic airway inflammation is common and does not always significantly affect lung function. If patients do not fulfill the functional criteria for asthma, they may not receive specific diagnosis and effective treatment. I have suggested the term "asthma-like inflammation" to describe the disorder of such patients. Bronchial obstruction and increased bronchial responsiveness are outcomes of the inflammatory process, and it may be argued that detection of eosinophilic inflammation is always late at the time asthma is diagnosed. The diagnosis of asthma is often severely delayed, a fact which influences the prognosis and efficacy of therapeutic interventions. The benefits of early treatment of symptomatic asthma have been shown, and several international guidelines recommend anti-inflammatory medication, preferably with inhaled steroids as first-line treatment to gain control of the disease as fast as possible. Very few studies, however, have addressed the long-term influence of various therapeutic approaches. Usually, the beneficial effects gradually disappear when treatment is withdrawn. There is no convincing evidence that any of the current pharmacologic therapies can change the natural course of asthma. Nevertheless, inhaled steroids seem to have a disease-modifying effect if started early enough, and there is a consensus that steroids abolish symptoms, improve lung function, and decrease the need for hospitalization and probably the mortality rate. In future, various combinations of immunologic and pharmacologic treatments may offer more permanent results in asthma therapy.

A pharmacokinetic/pharmacodynamic approach to predict the cumulative cortisol suppression of inhaled corticosteroids

The suppression of endogenous cortisol release is one of the major systemic side effects of inhaled corticosteroids in the treatment of asthma. The circadian rhythm of the endogenous cortisol release and the resulting plasma concentrations as well as the release suppression during corticosteroid therapy could previously be described with an integrated PK/PD model. Based on this model, a PK/PD approach was developed to quantify and predict the cumulative cortisol suppression (CCS) as a surrogate marker for the systemic activity of inhaled corticosteroid therapy. The presented method was applied to predict CCS after single doses and during short-term multiple dosing of the inhaled corticosteroids flunisolide (FLU), fluticasone propionate (FP), and triamcinolone acetonide (TCA), and after oral methylprednisolone as systemic reference therapy. Drug-specific PK and PD parameters were obtained from previous single-dose studies and extrapolated to the multiple-dose situation. For single dosing, a similar CCS within the range of 16-21% was predicted for FP 250 micrograms, FLU 500 micrograms, and TCA 1000 micrograms. For multiple dosing, a respective CCS of 28-33% was calculated for FLU 500 micrograms bid, FP 250 micrograms, bid, and TCA 1000 micrograms bid. Higher cortisol suppression compared to these single and multiple dosing regimens of the inhaled corticosteroids was predicted after oral doses of only 1 mg and 2 mg methylprednisolone, respectively. The predictive power of the approach was evaluated by comparing the PK/PD-based simulations with data reported previously in clinical studies. The predicted CCS values were in good correlation with the clinically observed results. Hence, the presented PK/PD approach allows valid predictions of CCS for single and short-term multiple dosing of inhaled corticosteroids and facilitates comparisons between different dosing regimens and steroids.

Anti-IgE as novel therapy for the treatment of asthma

Immunoglobulin-E (IgE) is believed to be the central effector antibody reacting to allergen in patients with allergic asthma. Clinical manifestations of allergic asthma result from the release of chemical mediators from mast cells and basophils on exposure to allergen. A humanized murine monoclonal antibody to IgE, rhuMAb-E25, recognizes the specific Fc epsilon3 portion of circulating IgE that binds to the high-affinity IgE receptor, Fc epsilonRI. In clinical studies, single and multiple doses of subcutaneous and intravenous rhuMAb-E25 have been shown to reproducibly reduce the serum free IgE concentrations in a dose-dependent manner. Clinical trials conducted in aeroallergen bronchoprovocation laboratories demonstrated that decreasing circulating IgE resulted in significant attenuation of the early and late asthmatic responses. Studies completed in moderate to severe allergic asthmatics have extended the safety and efficacy of rhuMAb-E25. Significant improvements in asthma symptoms, meaningful reductions in corticosteroid agents while decreasing reliance on bronchodilator rescue drugs, decreased asthma exacerbations, and improved quality of life have been documented. Because of the remarkable protein engineering and the humanization technology now available, rhuMAb-E25 therapy has elicited no antibody responses and has been safely administered to atopic subjects. rhuMAb-E25 as a novel monoclonal antibody, the first to be applied to lung diseases, holds promise for the control of many IgE-mediated diseases.

Active detection of chronic obstructive pulmonary disease and asthma in the general population. Results and economic consequences of the DIMCA program

The aim of this prospective study was to detect subjects in the general population with objective signs of chronic obstructive pulmonary disease (COPD) or asthma at an early stage. This was done by means of a two-stage protocol involving screening and a subsequent 2-yr monitoring of all subjects with positive results of screening. The study was done in 10 general practices located in the eastern part of the Netherlands. A random sample was taken from the general population aged 25 to 70 yr. All known COPD and asthma patients were excluded. A total of 1,749 subjects met the inclusion criteria: 1,155 subjects (66%) agreed to participate in the screening stage of the study. A total of 604 subjects (52.3%) showed symptoms or objective signs of COPD or asthma during the screening and were considered "positive." Of those with positive screening results, 384 subjects (64%) agreed to participate in the second, 2-yr monitoring stage of the study. The costs involved in detection were calculated for three different scenarios, as follows: (1) The detection of subjects with persistently decreased lung function or an increased level of bronchial hyperresponsiveness (BHR) during 6 mo of monitoring; (2) Scenario 1 plus the detection of subjects with a rapid decline in lung function with signs of BHR during 12 mo of monitoring; (3) Scenario 2 plus the detection of subjects with a moderate increase in the decline in lung function or signs of BHR during 24 mo of monitoring. The costs of lung function assessments, organization, transportation, and patient time were included. The costs were converted to United States dollars on the basis of purchasing power (1 United States dollar = 2.08 Netherlands guilders). During the second stage, 252 subjects were detected with objective signs of COPD or asthma at an early stage. Smoking status as a screening criterion was neither sensitive nor specific. Because there was no evidence of biased recruitment or selection during the program, the proportions of subjects found to have objective signs of COPD or asthma at an early stage could be extrapolated to the general population. Of the general population, 7.7% showed persistently reduced lung function or increased BHR. Another 12.5 % of the general population showed a rapid decline in lung function (> 80 ml/yr) in combination with signs of BHR, and a further 19.4% of the general population showed mild objective signs of COPD or asthma. The average costs per detected case varied from US$953 (Scenario 1) to US$469 (Scenario 3). In conclusion, detection of COPD or asthma at an early stage by means of a two-stage protocol was feasible at relatively little expense in comparison with other mass screening programs. Persistently decreased lung function or a rapid decline in lung function (Scenario 2) was observed in approximately 20% of the general adult population.

The long-term influence of therapeutic interventions in asthma with emphasis on inhaled steroids and early disease

The data available to show the long-term benefits of any pharmacological interventions in asthma is scanty. Usually the beneficial effects disappear gradually when the treatment is withdrawn. The evidence showing that treatment with drugs could change the natural course of asthma is largely lacking. Only a few controlled studies have lasted more than 1 year, while asthma can be a disease for life. Nevertheless, the short-term benefits of treatment with inhaled steroids justify their introduction as soon as the diagnosis of asthma is established. Regular use of inhaled steroids especially during the early stages of asthma often makes it a less troublesome disease. Regular use of long-acting beta2-agonists is useful in preventing exacerbations in persistent asthma, but their influence on the long-term outcome is quite unknown. Exploration of the possible disease outcome modifying effect of new innovations such as leukotriene antagonists should be put in the clinical study programmes. In future, the combination of immunological and pharmacological treatments may offer the key for more permanent results in asthma therapy.

Effects of inhaled corticosteroids on the consequences of asthma

Asthma is a chronic inflammatory disease of the airways involving a characteristic pattern of airway infiltration with lymphocytes, eosinophils, and mast cells, subepithelial deposition of collagen, and hypertrophy and hyperplasia of smooth muscle and of goblet cells and submucosal glands. The consequences of this chronic process include episodic or persistent symptoms, bronchial hyperreactivity, attacks of bronchoconstriction that may require emergency care or hospitalization and can lead to death, impairment in quality of life, and the development of irreversible airflow obstruction. Careful pathologic studies have shown that inhaled corticosteroid therapy can reverse or suppress airway inflammation, and prospective controlled clinical trials have proven that it can also improve symptoms, reduce bronchial hyperreactivity, and reduce the frequency and severity of attacks. It is also highly likely, although it is not yet proven, that inhaled corticosteroid therapy reduces the risk of asthma fatality and prevents or retards airway wall remodeling. These beneficial effects are easily shown in patients with moderate or severe asthma. Although inhaled corticosteroid therapy also benefits patients with mild asthma, it is less certain that the costs and risks of continuous therapy are justified. For these patients, the most important issues that remain to be resolved are the nature of the risk of development of permanent airflow obstruction and the effects of early, sustained treatment on the chances of sustained remission of asthma after all therapy has been stopped.