There is poor agreement on definitions of different phenotypes of preschool wheezing disorders. The present Task Force proposes to use the terms episodic (viral) wheeze to describe children who wheeze intermittently and are well between episodes, and multiple-trigger wheeze for children who wheeze both during and outside discrete episodes. Investigations are only needed when in doubt about the diagnosis.Based on the limited evidence available, inhaled short-acting b 2 -agonists by metered-dose inhaler/spacer combination are recommended for symptomatic relief. Educating parents regarding causative factors and treatment is useful. Exposure to tobacco smoke should be avoided; allergen avoidance may be considered when sensitisation has been established. Maintenance treatment with inhaled corticosteroids is recommended for multiple-trigger wheeze; benefits are often small. Montelukast is recommended for the treatment of episodic (viral) wheeze and can be started when symptoms of a viral cold develop.Given the large overlap in phenotypes, and the fact that patients can move from one phenotype to another, inhaled corticosteroids and montelukast may be considered on a trial basis in almost any preschool child with recurrent wheeze, but should be discontinued if there is no clear clinical benefit.Large well-designed randomised controlled trials with clear descriptions of patients are needed to improve the present recommendations on the treatment of these common syndromes.
long-term treatment instituted, without any objective diagnostic measurements ever being made. Is there any other chronic disease for which objective diagnostic tests are readily available of which this can be said? Although the Commissioners differed in their views on the strength of evidence for diagnosis and management guided by biomarkers, particularly in children, there was a consensus that the incorporation of biomarkers into the diagnosis could only enhance the capacity to diagnose asthma responsive to ICS and lead to a paradigm shift from the current approach to diagnose the umbrella term asthma, to the diagnosis of asthma phenotypes that respond to specific treatments. New drug development Until recently we have not seen the developments in new drug discovery enjoyed by other specialty areas (table 2) 19. This area perhaps exposes the limitations of our current view of 'asthma' and airway disease most obviously. New asthma treatments are largely variants on the old; a browner inhaler, with more potent topical effects, despite increasing concerns about topical immunosuppression 103. When new treatments become available, they are widely prescribed to all comers despite being largely ineffective (Sodium Cromoglycate, Ketotifen) or effective only in subgroups of patients (Omalizumab, Mepolizumab). There has been, until recently, no concept of targeted treatment. Progress in new drug discovery has been slow, with relatively few molecules progressing from the laboratory to the clinic and a depressingly high rate of failure at the later stages of clinical development (table 2) 19. Mepolizumab, a humanised monoclonal antibody that was developed to inhibit eosinophilic airway inflammation by blocking interleukin (IL)-5, is a good example. Mepolizumab was found to be safe and effective at blocking IL-5 and reducing eosinophilic airway inflammation when tested with in vitro systems and in vivo models 104,105. A subsequent clinical trial was designed based around incorporating Mepolizumab into a step-up guideline-based paradigm 106. Within this paradigm, Mepolizumab was investigated in patients who remained symptomatic on current ICS therapy and the clinical trial focused on lung function and asthma symptoms as traditional outcome measures. Despite adequate power, this trial was unexpectedly negative. This led to much soul-searching and the near-abandonment of the drug 107. Investigators who were experienced with non-invasive measures of airway inflammation identified two important problems with this initial clinical trial: first, the heterogeneity of airway inflammation in severe asthma meant that a significant number of the trial participants would not have had eosinophilic airway inflammation and therefore would not be expected to respond; and second, the
Asthma is a globally significant non-communicable disease with major public health consequences for both children and adults, including high morbidity, and mortality in severe cases. We have summarized the evidence on asthma trends, environmental determinants, and long-term impacts while comparing these epidemiological features across childhood asthma and adult asthma. While asthma incidence and prevalence are higher in children, morbidity, and mortality are higher in adults. Childhood asthma is more common in boys while adult asthma is more common in women, and the reversal of this sex difference in prevalence occurs around puberty suggesting sex hormones may play a role in the etiology of asthma. The global epidemic of asthma that has been observed in both children and adults is still continuing, especially in low to middle income countries, although it has subsided in some developed countries. As a heterogeneous disease, distinct asthma phenotypes, and endotypes need to be adequately characterized to develop more accurate and meaningful definitions for use in research and clinical settings. This may be facilitated by new clustering techniques such as latent class analysis, and computational phenotyping methods are being developed to retrieve information from electronic health records using natural language processing (NLP) algorithms to assist in the early diagnosis of asthma. While some important environmental determinants that trigger asthma are well-established, more work is needed to define the role of environmental exposures in the development of asthma in both children and adults. There is increasing evidence that investigation into possible gene-by-environment and environment-by-environment interactions may help to better uncover the determinants of asthma. Therefore, there is an urgent need to further investigate the interrelationship between environmental and genetic determinants to identify high risk groups and key modifiable exposures. For children, asthma may impair airway development and reduce maximally attained lung function, and these lung function deficits may persist into adulthood without additional progressive loss. Adult asthma may accelerate lung function decline and increase the risk of fixed airflow obstruction, with the effect of early onset asthma being greater than late onset asthma. Therefore, in managing asthma, our focus going forward should be firmly on improving not only short-term symptoms, but also the long-term respiratory and other health outcomes.
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