Article Text

other Versions

PDF

Not all wheeze is asthma: time for patients to exercise their rights
  1. J H Hull
  1. Correspondence to Dr James H Hull, Department of Respiratory Medicine, Royal Brompton Hospital, Fulham Road, London SW3 6HP, UK; j.hull{at}rbht.nhs.uk

Statistics from Altmetric.com

It is now over a century since Sir William Osler first highlighted the fact that not all breathlessness and wheeze is caused by asthma; with a description that in some, … ‘the laryngeal muscle can spasm during periods of stress’ and as such act to mimic bronchoconstriction.1

Yet despite 100 years of medical progress, when a young individual presents with exertional breathlessness, all too often he or she will get promptly labelled as asthmatic.2 ,3 Indeed, we know from studies conducted in both the UK3 and USA,4 that when faced with this clinical presentation, primary care physicians have poor access to the most accurate diagnostic tools and a trial of inhaled asthma therapy is often, therefore, employed with ‘diagnostic’ intent. This is despite the countless number of studies indicating that clinical assessment in this capacity is at best imprecise and at worst no better than a coin toss.5–7 In other words, in young individuals objective testing is required to determine the cause of their exertional breathlessness.

But work, gathering pace over recent years, is now acting to shine a light on the importance of diagnostic precision in this area.2 ,8 It is on this basis we should welcome the study by Johansson et al9 with the aim of evaluating the prevalence of the differential diagnoses for exertional breathlessness in adolescents.

A key condition addressed in this study is exercise-induced laryngeal obstruction (EILO); a phenomenon in which the larynx can transiently narrow during intense exercise, typically secondary to an antero-medial ‘in-folding’ of the supra-glottic or arytenoid structures.2 ,8 Many will already be familiar with this condition, which, although appears under different guises (eg, exercise-induced vocal cord dysfunction) and has suffered at the hands of a befuddled historical approach to nomenclature,10 is gaining widespread recognition as a key differential diagnosis for breathlessness in the young. The key mechanism(s) underlying the development of EILO remain to be determined; however, undoubtedly the forces and pressure changes that are manifest across the larynx during intense exercise hyperpnoea play a key role in promoting in-folding of vulnerable laryngeal structures.

Before turning to the study findings, it is worth scrutinising the test procedures employed. Indeed, while the strengths and weaknesses of the protocol employed for laboratory EIB testing will be familiar to many, fewer will be accustomed with the continuous laryngoscopy during exercise (CLE) test.11 The latter involves placement of a fibreoptic laryngoscope on specialist headgear, in order to allow continuous recorded visualisation of the larynx, throughout an intense exercise bout. This permits a ‘real-time’ assessment of laryngeal movement and thus delineates any propensity to inappropriate closure.

The CLE test has rapidly become established as the ‘gold-standard’ means for diagnosing EILO, principally on the basis that EILO is a peak exercise phenomenon and rapidly abates on exercise cessation; that is, there is insufficient time to place a scope in the postexercise period. It has now been used in a variety of sport-specific settings12 and appears to be well tolerated in very young individuals8; yet the lack of a robust ‘dynamic’ system for scoring laryngeal closure, with proven reproducibility, remains an important shortfall.

Regardless of this, using the CLE test, with a widely used scoring system and standard exercise induced bronchoconstriction (EIB) test methodology, the authors report prevalence estimates for EIB and EILO of 19% and 5%, respectively, in this adolescent northern European population.

The authors acknowledge that these figures are somewhat discordant with prior work in the field. Specifically that the EIB estimate is higher than others,13 yet the EILO estimate is slightly lower.14 Methodological differences (ie, diagnostic cut-off value for EIB) undoubtedly play a role in this discrepancy; however, the initial inclusion criteria are likely to be relevant; namely ‘have you had an attack of shortness of breath that came following strenuous activity at any time, in the last 12 months?’ This approach may have preferentially enriched the population, in that EILO occurs during high-intensity exercise, while EIB is classically considered a post–exercise phenomenon. Moreover, it is with some leap of faith that data, obtained from a relatively small subgroup of the total population sampled, can be back-extrapolated, without due consideration for the potentially confounding influence of several biases inherent to this type of approach, for example, responder and selection bias.

One could perhaps, therefore, argue that the greatest utility from the study comes from focusing on the group with exercise-induced breathlessness who completed comprehensive objective testing (n=83). In this group, just under half had evidence of EIB, while EILO was present in one in ten.

These findings are broadly in line with other studies using similar methodology; most notably the work by Nielsen et al,2 who demonstrated a higher case prevalence of EILO of 35%, although in a slightly older cohort of trained athletic individuals. Moreover, the studies align in highlighting the fact that there is a real and distinct overlap between the presence of EIB and EILO, that is, in the current study half of those with evidence of EILO also had EIB. This is important for clinical practice and is likely to be equally applicable in older and certainly less athletic populations, where it is recognised that ‘treatment refractory’ exertional symptoms in those with asthma may arise from coexistent EILO.15

A further important finding from the study9 is that, despite robust objective testing, nearly half of those with breathlessness were left without a diagnosis. As the authors point out, this is in keeping with prior studies evaluating exertional dyspnoea in the young2 ,13 and may be explained by perceptual amplification, de-conditioning or perhaps unrecognised dysfunctional breathing.16 The key point, however, is that worryingly, yet in keeping with the prior published work in the field, almost half of this group was prescribed inhaler therapy.

So where does this leave the clinician? Clearly, it is of concern to see an ongoing signal to suggest that young individuals with breathlessness continue to be mislabelled and mistreated. The side effect profile and potential deleterious impact of regular β-2 agonist therapy17 surely underlines the importance of moving forward from a ‘suck it and see’ approach. In addition, the timely and accurate recognition of EILO facilitates delivery of targeted treatment, including consideration for surgical intervention.18

Further work is clearly needed to understand the causes of exertional breathlessness in the young and the place and utility of simple less-invasive means for accurate diagnosis. Indeed, there is an uncanny parallel with the arguments made by advocates in favour of simple objective assessment of airway inflammation;19 perhaps the key message being that we need to accept that more objective testing is needed to facilitate precision.

In this respect, it is encouraging to see work from the IMPRESS Group for the British Thoracic Society (http://www.impressresp.com) and the National Institute of Health and Care Excellence Asthma diagnosis and monitoring guideline development group (https://www.nice.org.uk/Guidance/InDevelopment/GID-CGWAVE0640); acting to place early and accurate diagnosis at the forefront of UK respiratory practice. After all, surely it is high time that patients with exertional breathlessness exercise their right to a correct diagnosis and treatment.

References

View Abstract

Footnotes

  • Competing interests None.

  • Provenance and peer review Commissioned; internally peer reviewed.

Request Permissions

If you wish to reuse any or all of this article please use the link below which will take you to the Copyright Clearance Center’s RightsLink service. You will be able to get a quick price and instant permission to reuse the content in many different ways.

Linked Articles