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Evaluation of Exercise Induced Bronchoconstriction Using a Novel Automated Digital Clinical Decision System

Not Applicable
Conditions
Exercise Induced Asthma
Exercise Induced Bronchospasm
Pediatric Respiratory Diseases
Interventions
Diagnostic Test: AsthmaTuner
Registration Number
NCT05162703
Lead Sponsor
Region Stockholm
Brief Summary

The primary objective of this study is to assess if the unstandardized field exercise challenge test (ECT) using AsthmaTuner can be performed independently by youths that have been investigated for asthma. This is an open feasibility study including youths who have been investigated for asthma. Participants will be equipped with a digital spirometer and mobile phone app to perform an exercise tests in their natural training environment. Feasibility will be evaluated using questionnaires.

Detailed Description

Asthma is the most common chronic condition in athletes and people who exercise regularly. Asthma is defined as a chronic inflammation in the airways associated with bronchial hyper responsiveness (BHR). While exercise-induced "sports" asthma (EIA) describes symptoms and signs of asthma provoked by exercise, exercise-induced bronchoconstriction (EIB) is defined as the transient narrowing of the lower airway after exercise. In the general population, EIB with or without asthma affects 5% to 20%, but the rate is estimated to be even higher in top athletes participating in winter and summer endurance sports.

Asthma and EIB represents an important challenge in both athletes and the general population, and correct diagnosis is important as it affects health as well as performance.

Presence of BHR is demonstrated by direct or indirect bronchial provocation testing. Indirect bronchial provocation includes several methods for the diagnosis of EIB. The most intuitive is exercise (field and laboratory) challenge testing (ECT), but sensitivity has been reported to be low, since exercise load and intensity have large impact on ability to detect EIB and in field-testing (FT), standardizing ambient conditions are impossible.

Suboptimal tests for EIB may explain why previous papers report poor relationship between symptoms of EIA and the objective EIB in athletes, leaving the actual rate of EIB remains unclear. What has been argued to be the true "gold standard" is a sports-specific exercise FT, performed in the actual training conditions which also makes it easier for the athlete to perform at maximum exercise. The advantages of monitoring with peak expiratory flow (PEF) or forced expiratory volume in 1 s (FEV1) outside a laboratory with a PEF meter or spirometer, respectively, are that it is simple and cheap. It also enables measure of bronchial challenge testing in close relationship to symptoms, since laboratory bronchial challenge testing often are negative in subjects being away from their profession too long. However, traditional non-digital method of serial PEF/FEV1 monitoring has limitations with poor adherence, interpretation difficulties with objectivity and time-consuming analysis and reading of paper PEF/FEV1 plots.

Recently, AsthmaTuner (Medituner AB) consisting of a patient smartphone application, a portable wireless spirometer for measuring lung function (PEF/FEV1), and a healthcare interface including treatment plan, was reported to significantly improve management of uncontrolled asthma. Such electronically clinical decision support systems (CDSS) has gained acceptance for the diagnosis of asthma, and by the ability to assess patient generated data in field ECTs, the CE-marked AsthmaTuner may provide athletes a feasible, time and cost-efficient self-monitoring of EIB and asthma. AsthmaTuner may also empower athletes in monitoring their lung function over time. These lung function measurements contain unexpected amounts of information for identifying athletes with distinct phenotypes of EIB due to strenuous sports and environmental conditions. Hence, AsthmaTuner have the potential to fill the knowledge gap regarding prevalence of EIB, development of EIB and the lack of association between symptoms and detection of EIB in athletes.

The primary objective of this study is to assess if the unstandardized field exercise challenge test (ECT) using AsthmaTuner can be performed independently by youths that have been investigated for asthma. This is an open feasibility study including youths who have been investigated for asthma. Participants will be equipped with a spirometer and and the AsthmaTuner mobile phone app to perform an exercise tests in their natural training environment. Feasibility will be evaluated using questionnaires.

Recruitment & Eligibility

Status
UNKNOWN
Sex
All
Target Recruitment
15
Inclusion Criteria

Not provided

Exclusion Criteria

Other medical conditions or medications that interfere with asthma or respiratory tract infection in the last two weeks.

Study & Design

Study Type
INTERVENTIONAL
Study Design
SINGLE_GROUP
Arm && Interventions
GroupInterventionDescription
Intervention groupAsthmaTunerParticipants will be equipped with a spirometer and and the AsthmaTuner mobile phone app to perform an exercise tests in their natural training environment. Feasibility will be evaluated using questionnaires.
Primary Outcome Measures
NameTimeMethod
Ability to perform test2 weeks

Number of participants who completed the test

Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

Astrid Lindgren Children's Hospital, Karolinska University Hospital

🇸🇪

Stockholm, Sweden

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