Paul M. O’Byrne

Adult Asthma Consensus Guidelines Update 2003

BACKGROUND Several sets of Canadian guidelines for the diagnosis and management of asthma have been published over the past 15 years. Since the last revision of the 1999 Canadian Asthma Consensus Report, important new studies have highlighted the need to incorporate new information into the asthma guidelines. OBJECTIVES To review the literature on adult asthma management published between January 2000 and June 2003; to evaluate the influence of the new evidence on the recommendations made in the 1999 Canadian Asthma Consensus Guidelines and its 2001 update; and to report new recommendations on adult asthma management. METHODS Three specific topics for which new evidence affected the previous recommendations were selected for review: initial treatment of asthma, add-on therapies in the treatment of asthma and asthma education. The resultant reviews were discussed in June 2003 at a meeting under the auspices of the Canadian Thoracic Society, and recommendations for adult asthma management were reviewed. RESULTS The present report emphasises the importance of the early introduction of inhaled corticosteroids in symptomatic patients with mild asthma; stresses the benefit of adding additional therapy, preferably long-acting beta2-agonists, to patients incompletely controlled on low doses of inhaled corticosteroids; and documents the essential role of asthma education. CONCLUSION The present report generally supports many of the previous recommendations published in the 1999 Canadian Asthma Consensus Report and provides higher levels of evidence for a number of those recommendations.

Th Type 1-Stimulating Activity of Lung Macrophages Inhibits Th2-Mediated Allergic Airway Inflammation by an IFN-γ-Dependent Mechanism

In the mucosal immune system, resident dendritic cells are specialized for priming Th2-polarized immunity, whereas the Ag-presenting activity of macrophages has been linked with the development of Th1 phenotype. As an immune switch toward Th1 can protect against Th2-mediated allergic response, this study investigated the capacity of lung macrophages to stimulate Th1 responses during the secondary exposure to inhaled allergen, thereby suppressing Th2-mediated allergic airway inflammation in a murine model of allergic asthma. Following airway macrophage depletion in OVA-sensitized mice, lung T cells defaulted to a phenotype that produced less Th1 (IFN-γ) and more Th2 (IL-4 and IL-5) cytokines, leading to more severe airway hyperreactivity and inflammation after intranasal Ag challenge. After OVA pulsing and adoptive transfer, lung macrophages selectively promoted a Th1 response in Ag-sensitized recipients and did not induce pulmonary eosinophilia. By contrast, OVA pulsing and adoptive transfer of a lung cell preparation, consisting of dendritic cells, B cells, and macrophages, promoted a Th2 response with an associated inflammatory response that was suppressed when macrophages were present and pretreated with IFN-γ, but exacerbated when macrophages were depleted before IFN-γ treatment. In addition, Th1-promoting activity of lung macrophages was not related to the autocrine production of IL-12p40. These results suggest that the Th1-promoting APC activity may be an inherent property of the lung macrophage population, and may play an important role, upon stimulation by IFN-γ, in antagonizing an ongoing Th2 immunity and Th2-dependent allergic responses.

Pranlukast, a cysteinyl leukotriene receptor antagonist, attenuates allergen-induced early- and late-phase bronchoconstriction and airway hyperresponsiveness in asthmatic subjects☆☆☆★★★

BACKGROUND The cysteinyl leukotrienes (cysLTs) have been implicated in the pathogenesis of allergen-induced airway responses. The purpose of this study was to evaluate the effects of pretreatment with the cysLT receptor antagonist pranlukast on allergen-induced early asthmatic responses (EARs) and late asthmatic responses (LARs) and on allergen-induced airway hyperresponsiveness (AHR). METHODS Ten atopic, nonsmoking patients with mild asthma and previously demonstrated early- and late-phase allergen-induced asthmatic responses participated in a double-blind, placebo-controlled, cross-over study, comparing treatment with either 450 mg pranlukast given twice daily or placebo for 5.5 days. A methacholine challenge was performed before administration of medication, and the result was expressed as the PC20. An allergen inhalation challenge was performed on the morning of the fifth day of treatment 2 hours after administration of medication. Methacholine challenges were also performed 2 hours after medication on days 4 and 6 (24 hours before and 24 hours after allergen administration) to examine allergen-induced AHR. RESULTS Pranlukast attenuated allergen-induced early responses, late responses, and AHR. The mean (SEM) maximal percent fall in FEV1 from baseline during the early response was 30.0% (5.1%) during placebo treatment and 15.5% (3.5%) during pranlukast treatment (mean difference, 14.5%; 95% confidence interval [CI], 5.3 to 23.7; P = .007), with a mean protection afforded by pranlukast of 48.3%. The mean maximal percent fall in FEV1 during the late response was 34.7% (5.3%) during placebo treatment and 24.0% (4.4%) during pranlukast treatment (mean difference, 10.7%; 95% CI, 4.1 to 17.3; P = .006), with a mean protection afforded by pranlukast of 30.8%. The mean allergen-induced shift in PC20 was -1.76 (0.32) doubling doses during placebo treatment and -0.38 (0.31) doubling doses during pranlukast treatment (mean difference, -1.38 doubling doses; 95% CI, 0.44 to 2.32; P = .012), with a mean protection afforded by pranlukast of 78.4%. CONCLUSION These results demonstrate that pranlukast can attenuate allergen-induced early and late airways responses and AHR and adds further support for an important role for the cysLTs in mediating allergen-induced asthmatic responses.

Eosinophilopoiesis in A Murine Model of Allergic Airway Eosinophilia: Involvement of Bone Marrow IL-5 and IL-5 Receptor α

The airway inflammation in asthma is dominated by eosinophils. The aim of this study was to elucidate the contribution of newly produced eosinophils in airway allergic inflammation and to determine mechanisms of any enhanced eosinophilopoiesis. OVA-sensitized BALB/c mice were repeatedly exposed to allergen via airway route. Newly produced cells were identified using a thymidine analog, 5-bromo-2′-deoxyuridine, which is incorporated into DNA during mitosis. Identification of IL-5-producing cells in the bone marrow was performed using FACS. Bone marrow CD3+ cells were enriched to evaluate IL-5-protein release in vitro. Anti-IL-5-treatment (TRFK-5) was given either systemically or directly to the airways. IL-5R-bearing cells were localized by immunocytochemistry. Repeated airway allergen exposure caused prominent airway eosinophilia after three to five exposures, and increased the number of immature eosinophils in the bone marrow. Up to 78% of bronchoalveolar lavage (BAL) granulocytes were 5-bromo-2′-deoxyuridine positive. After three allergen exposures, both CD3+ and non-CD3 cells acquired from the bone marrow expressed and released IL-5-protein. Anti-IL-5 given i.p. inhibited both bone marrow and airway eosinophilia. Intranasal administration of anti-IL-5 also reduced BAL eosinophilia, partly via local effects in the airways. Bone marrow cells, but not BAL eosinophils, displayed stainable amounts of the IL-5R α-chain. We conclude that the bone marrow is activated by airway allergen exposure, and that newly produced eosinophils contribute to a substantial degree to the airway eosinophilia induced by allergen. Airway allergen exposure increases the number of cells expressing IL-5-protein in the bone marrow. The bone marrow, as well as the lung, are possible targets for anti-IL-5-treatment.

Measuring efficacy and safety of different inhaled corticosteroid preparations

Inhaled corticosteroids are the mainstay of treatment for persistent asthma because of their proven efficacy, which is better than any other class of antiasthma therapy. Concerns about unwanted systemic effects with long-term use has, however, limited their use. Efforts have been made to develop inhaled corticosteroids with less systemic activity for a given clinical effect, thereby improving their therapeutic index. Many different study designs and outcome variables have been used to compare different inhaled corticosteroids. Differences in pharmacologic properties between drugs are most easily and accurately measured and quantified by measures of systemic effects. However, these differences should always be related to differences in clinical effects. It is difficult to draw firm conclusions with respect to the therapeutic index of different inhaled corticosteroids because no direct placebo-controlled, dose-response comparisons of clinical effects have been made. Despite this caveat, the available studies suggest that microgram for microgram, when delivered by a pressurized metered-dose inhaler (pMDI), fluticasone propionate (FP) is more effective than beclomethasone dipropionate (BDP), triamcinolone acetonide (TAA), or budesonide; however, the efficacy of budesonide delivered by Turbuhaler is equipotent to that of FP delivered by pMDI or Diskhaler and more effective than that of BDP. When comparative safety is considered, budesonide or TAA delivered by pMDI have less systemic activity than FP delivered by pMDI, whereas BDP and FP delivered by pMDI appear to be equivalent. Also, budesonide delivered by Turbuhaler has less systemic activity than FP delivered by Diskhaler.

What Is New Since the Last (1999) Canadian Asthma Consensus Guidelines

The objective of the present document is to review the impact of new information on the recommendations made in the last (1999) Canadian Asthma Consensus Guidelines. It includes relevant published studies and observations or comments regarding what are considered to be the main issues in asthma management in children and adults in office, emergency department, hospital and clinical settings. Asthma is still insufficiently controlled in a large number of patients, and practice guidelines need to be integrated better with current care. This report re-emphasises the need for the following: objective measures of airflow obstruction to confirm the diagnosis of asthma suggested by the clinical evaluation; identification of contributing factors; and the establishment of a treatment plan to rapidly obtain and maintain optimal asthma control according to specific criteria. Recent publications support the essential role of asthma education and environmental control in asthma management. They further support the role of inhaled corticosteroids as the mainstay of anti-inflammatory therapy of asthma, and of both long acting beta2-agonists and leukotriene antagonists as effective means to improve asthma control when inhaled corticosteroids are insufficient. New developments, such as combination therapy, and recent major trials, such as the Childrens Asthma Management Project (CAMP) study, are discussed.

Repeatability of allergen-induced airway inflammation

BACKGROUND Allergen inhalation challenge is a useful clinical model to investigate the effects of asthma therapies on allergen-induced airway responses; however, the repeatability of allergen-induced airway inflammation is not known. OBJECTIVE The purpose of this study was to investigate the repeatability of allergen-induced increases in sputum eosinophils. This information will allow the prediction of the number of subjects required in studies evaluating asthma therapies. METHODS Seventeen subjects completed 2 allergen challenges using the same dose of allergen, at least 3 weeks apart. Allergen-induced airway responses were measured for 7 hours after challenge. Differential cell counts from induced sputum were determined the day before and 7 and 24 hours after challenge; methacholine PC20 was measured the day before and 24 hours after challenge. RESULTS The intraclass correlation coefficient for maximum percent late fall in FEV1 was 0.32 and for the area of the late response was 0.61. The sample size predicted to be necessary to observe 50% attenuation of the maximum percent late fall in FEV1 and the late area under the curve with a power of 0.95 was 9 subjects. The intraclass correlation coefficient for percent of allergen-induced sputum eosinophils was 0.60 at 7 hours and 0.53 at 24 hours after challenge. With a randomized cross-over study design, the sample size predicted to be necessary to observe 50% attenuation of allergen-induced percent of eosinophils with a power of 0.95 was 5 subjects. CONCLUSION Allergen inhalation challenge with measurements of sputum eosinophils is a noninvasive and reliable method for evaluating the anti-inflammatory effects of asthma therapies.

Therapeutic strategies to reduce asthma exacerbations.

Asthma exacerbations can occur in patients with all degrees of asthma severity. They generally develop over 5 to 7 days and are most often initiated by an upper respiratory tract infection (usually with human rhinovirus) or by environmental allergen exposure in atopic subjects. Inhaled corticosteroids (ICSs) taken on a regular basis are very effective in reducing the risk of asthma exacerbations, and the combination of ICSs and long-acting inhaled β₂-agonists further reduces this risk. In addition, use of the combination of the ICS budesonide and the long-acting inhaled β₂-agonist formoterol, both as maintenance asthma treatment and also as rescue treatment (instead of a short-acting inhaled β₂-agonist), has a significant further beneficial effect on asthma exacerbation risk. Other therapies that have been demonstrated to reduce severe asthma exacerbations are leukotriene receptor antagonists, which have been demonstrated to be effective most consistently in this regard in children, and anti-IgE mAbs, which are effective in subjects with difficult-to-treat allergic asthma. Approximately 50% of severe asthma exacerbations are eosinophilic in nature, whereas many of the remaining are neutrophilic. Several studies have demonstrated that making asthma treatment decisions based on minimizing airway eosinophil numbers (measured in induced sputum) can reduce the risks of severe exacerbations. In addition, treatment of patients with severe asthma with an anti-IL-5 mAb also reduces the number of severe asthma exacerbations, demonstrating a central role of eosinophils in many exacerbations.

The allergen bronchoprovocation model: an important tool for the investigation of new asthma anti-inflammatory therapies

Allergen bronchoprovocation tests have been used for more than two decades in the investigation of respiratory allergic diseases such as asthma and rhinitis. These bronchial challenges are now well standardized and can offer key information on the therapeutic potential of new agents and on their anti‐inflammatory effects on the airways. Both standard and low‐dose allergen provocations are safe when performed by experienced investigators and do not lead to persistent worsening of asthma or change in airway function. The evaluation of new therapeutic agents by these methods can also provide important information on the mechanisms of development and persistence of airway diseases.

A GM-CSF/IL-33 Pathway Facilitates Allergic Airway Responses to Sub-Threshold House Dust Mite Exposure

Allergic asthma is a chronic immune-inflammatory disease of the airways. Despite aeroallergen exposure being universal, allergic asthma affects only a fraction of individuals. This is likely related, at least in part, to the extent of allergen exposure. Regarding house dust mite (HDM), we previously identified the threshold required to elicit allergic responses in BALB/c mice. Here, we investigated the impact of an initial immune perturbation on the response to sub-threshold HDM exposure. We show that transient GM-CSF expression in the lung facilitated robust eosinophilic inflammation, long-lasting antigen-specific Th2 responses, mucus production and airway hyperresponsiveness. This was associated with increased IL-33 levels and activated CD11b+ DCs expressing OX40L. GM-CSF-driven allergic responses were significantly blunted in IL-33-deficient mice. IL-33 was localized on alveolar type II cells and in vitro stimulation of human epithelial cells with GM-CSF enhanced intracellular IL-33 independently of IL-1α. Likewise, GM-CSF administration in vivo resulted in increased levels of IL-33 but not IL-1α. These findings suggest that exposures to environmental agents associated with GM-CSF production, including airway infections and pollutants, may decrease the threshold of allergen responsiveness and, hence, increase the susceptibility to develop allergic asthma through a GM-CSF/IL-33/OX40L pathway.