Asthma, COPD and bronchitis are just components of airway disease

Diseases of the airways of the lungs are common and include asthma, chronic obstructive pulmonary disease (COPD) and bronchitis, as well as emphysema and bronchiectasis. Their diagnosis is often inaccurate because appropriate measurements are not made 1–3 and the definition of airway disease is still imprecise. For example, the Global Initiative for Asthma (GINA) definition of asthma describes components but fails to give a primary definition which distinguishes the disease from others 4. The Canadian definition of COPD includes partly reversible airflow limitation, which is what many would define as asthma 5. Therefore, it seems appropriate to reconsider how we diagnose and define airway disease; this is important in order to optimise treatment.

COMPONENTS OF AIRWAY DISEASES

The components (characteristics, features, etc.) of airway disease include symptoms, variable airflow limitation, airway hyperresponsiveness, chronic airflow limitation and airway inflammation, as well as emphysema and bronchiectasis (fig. 1⇓). They can exist in various combinations. Airway inflammation is central to all other components. It is a cause of symptoms, variable airflow limitation through release of bronchoconstrictor mediators, and chronic airflow limitation through remodelling with structural changes. It also increases airway responsiveness. These components correlate poorly with one another 6–9. The best correlation is between the diurnal variation of peak expiratory flow (PEF) and airway responsiveness 10, which is not surprising since the latter is an important determinant of the former. Symptoms of chest tightness, wheezing, dyspnoea, cough and sputum are all nonspecific since they can result from each of the other components, as well as other respiratory and nonrespiratory conditions. Hence, measurements are needed to be certain as to what the symptoms are associated with.

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Fig. 1—

Relationships between components of airway diseases. Airway inflammation influences all other components, including emphysema and bronchiectasis, which are not shown. Airway hyperresponsiveness is an important determinant of variable airflow limitation and is itself also influenced by the presence of airflow limitation.

MEASUREMENTS IN AIRWAY DISEASES

The following measurements are widely available: 1) spirometry with the effect of an inhaled β-agonist to measure reversibility; 2) PEF, especially to measure diurnal variation of airflow limitation; 3) post-β-agonist spirometry for chronic airflow limitation; and 4) methacholine (or indirect stimuli) tests to measure airway responsiveness (fig. 2⇓). More recently, quantitative spontaneous or induced sputum cell counts and exhaled nitric oxide (NO) have been introduced to measure airway inflammation, although they are not yet widely available 11, 12.

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Fig. 2—

Diseases’ equal components (see fig. 1⇑). Asthma is variable airflow limitation, chronic obstructive pulmonary disease (COPD) is chronic airflow limitation and bronchitis or bronchiolitis is airway inflammation.

Sputum cell counts provide the most comprehensive and valid clinical measurement of airway inflammation as they specifically identify different types of inflammation that are a result of different causes and mechanisms and which result in different pathophysiology 13. The types and causes are as follows: 1) eosinophilic, resulting from sensitisation and reactions to inhaled allergens or occupational chemical sensitisers, reduction of corticosteroid treatment, or unknown; 2) neutrophilic, due to viral or bacterial infections, cigarette smoke, cystic fibrosis, α₁-antitrypsin deficiency, or atmospheric or occupational exposures; or 3) both eosinophilic and neutrophilic, or neither. Most of these causes are common, one or more may be present at the same time and these may vary from one time to another. Therefore, it is to be expected that airway disease will commonly be heterogeneous.

Exhaled NO, while it increases with eosinophilic inflammation, is not specific for eosinophilia and is unable to reliably identify noneosinophilic inflammation, which is a common cause of exacerbations. Nonetheless, its use in clinical practice can be an advantage over only using symptoms and spirometry to guide corticosteroid treatment 12, 14, but is not as effective or discriminative as the use of sputum cell counts 11, 15.

DEFINITIONS AND DISEASES

Between 1959 and 1971, a number of working groups sought to define asthma, COPD, emphysema and chronic bronchitis 16–19. Scadding 20 highlighted that there needs to be a primary defining characteristic, which may be of several different sorts, depending upon the point that has been reached in a diagnostic process, which moves towards but frequently stops short of causation, its desirable end-point. The simplest definition of a disease is based on symptoms or signs and is known as a syndrome, e.g. as with a common cold. The best primary definition of a disease is based on a cause, e.g. tuberculosis. In between, definitions can be based on a unifying abnormality of function or of pathology.

Hence, if we consider asthma, the definition cannot be based on symptoms or signs because, as stated previously, these are not specific. Neither can it be based on a cause because there are several causes, e.g. hypersensitivity to inhaled allergens or viral infections or unknown. Furthermore, it cannot be based on pathology because, at least with current understanding, there is not a unifying pathology. Therefore, Scadding 20 proposed that asthma be defined by an abnormality of function as “a disease characterised by wide variations over short periods of time in resistance to flow in intrapulmonary airways”, and this is widely accepted. The wide variations in resistance to flow are objectively validated by improvement in forced expiratory volume in one second (FEV₁) after inhaled rapid-acting β-agonist, by an increase in the diurnal variability of PEF (which best incorporates the effect of a rapid-acting β-agonist 10), or, especially when the FEV₁ is normal, by an increased tendency for the FEV₁ to fall after a bronchoconstrictive stimulus (i.e. airway hyperresponsiveness).

In a similar way to asthma, COPD has also been defined, and still is, as an abnormality of airway function as a “disease state characterised by airflow obstruction that is not fully reversible” 21. Like asthma, this cannot be primarily defined by pathology or cause. While cigarette smoking is a common cause, COPD can occur in nonsmokers. It can be associated with different kinds of airway inflammation of different causes, e.g. eosinophilic inflammation 22 or neutrophilic inflammation due to infection 23. It can also be associated with asthma as defined by an abnormality of function 24.

The other component of asthma or COPD is airway inflammation. This is bronchitis or bronchiolitis which can also, and commonly does, occur without asthma or COPD. As such, bronchitis is a disease that can be clinically validated by quantitative sputum cell counts.

When considered in this way, the diseases asthma and COPD are just physiological components of airway disease and bronchitis is the inflammatory component (fig. 2⇑). A patient with asthma may or may not have an eosinophilic bronchitis and, in a nonsmoker, as well as a smoker, may or may not develop COPD. The smoker with COPD may have an eosinophilic bronchitis or asthma. A neutrophilic bronchitis due to infection can occur in any situation. Hence, the diseases are not necessarily mutually exclusive; combinations commonly occur and can vary from one patient to another. Their recognition is important to rationalise and optimise minimum treatment to achieve the best results with the least side-effects and cost.

TREATMENT

The treatment of airway disease is determined by the disease(s) present and its (their) severity. The asthma component is treated with bronchodilators of which the most effective is the β-agonist. If this is associated with eosinophilic bronchitis, which can increase variable airflow limitation (including airway hyperresponsiveness), it will also respond to corticosteroid treatment 25 or treatment of its cause. Eosinophilic bronchitis with COPD 22, 24, 26 or an isolated chronic cough 27 will also be expected to respond to these measures. Bacterial infective neutrophilic bronchitis benefits from treatment with an antibiotic. So far, viral noneosinophilic, usually neutrophilic 28, 29, bronchitis resolves spontaneously and requires only palliative treatment of any exacerbation of asthma. There is no effective treatment of COPD without eosinophilia other than limited and transient benefit from anticholinergic treatment in some, avoidance of causal factors and treatment of complications.

The severity of asthma is the magnitude of variable airflow limitation. The severity of COPD is the degree of chronic airflow limitation. The severity of eosinophilic bronchitis is reflected by the percentage of sputum eosinophils and the minimum dose of corticosteroid required to control it. Of course, eosinophilic bronchitis can also determine the severity of airflow limitation and variable airflow limitation, which can be reduced by controlling it. The poor correlation between the presence and severity of variable airflow limitation and eosinophilic bronchitis means that asthma may be absent or mild when eosinophilic bronchitis is severe, or vice versa. A patient with severe eosinophilic bronchitis might need maintenance prednisone treatment but no regular bronchodilator. A patient with a severe increase in airway responsiveness and variable airflow limitation may require daily long-acting β-agonist, but little or no corticosteroid.

CONCLUSION

There is widespread difference in opinion about the meaning of asthma, which is due to a failure to appreciate that the primary definition must be based on an abnormality of function that distinguishes it from other diseases. Other components of the disease, such as airway inflammation and chronic airflow limitation, may also be present but these can occur without asthma and so are not defining characteristics. The airway inflammation and chronic airflow limitation components also define the diseases of bronchitis and COPD. Hence, the components are the diseases present. None of them are mutually exclusive and they commonly occur together. Their recognition through measurement rationalises and helps to optimise minimum treatment.

This point of view supports the Dutch hypothesis that was put forward in the 1960s by Orie et al. 30 and reviewed recently by Postma and Boezen 31. This suggested that the various types of airway diseases should not be considered as separate diseases but as one disease entity, the components of which are influenced by host (genetic) and environmental factors. Clinical evaluation should be of the components and causes in order to rationalise, individualise and optimise treatment. We agree, but propose that the names asthma, chronic obstructive disease and bronchitis are retained for what they are, components of airway disease.