View clinical trials related to Asthma, Exercise-Induced.
Filter by:The investigators recently observed airway inflammation and increased damage-associated molecular pattern (DAMP) level in sputum of children (age 11-12y) and adolescents (18-23y) from elite sport programs in Belgium with increased risk of bronchoconstriction upon extreme exercise. They here want to validate these findings in a cohort 13-18y.
Guidelines from the American Thoracic Society strongly recommend interval warm-up exercise before planned exercise to reduce exercise-induced bronchoconstriction severity. However, no empirical data on the effects of interval warm-up exercise on exercise-induced bronchoconstriction severity are available in obese asthmatic children, where excess fat exerts such an unfavorable burden on the respiratory system, particularly during exercise. The objective of this study is to investigate the effects of interval warm-up exercise on exercise-induced bronchoconstriction severity in obese and nonobese asthmatic children. Our approach will be to investigate exercise tolerance, respiratory function, and exercise-induced bronchoconstriction severity and the effects of (1) 8x30sec interval warm-up & (2) pretreatment with a bronchodilator compared with a no-treatment control on exercise-induced bronchoconstriction severity in 8-12 yr, prepubescent, obese and nonobese asthmatic children. [Aim]: To investigate the effects of interval warm-up exercise on exercise-induced bronchoconstriction severity. [Hypothesis]: Interval warm-up exercise will reduce exercise-induced bronchoconstriction severity after an exercise challenge test to a similar extent as bronchodilator and better than control.
The purpose of this study is to investigate the quality of life of subjects suffering from dyspnoea while exercising and quantify the number of diagnoses of Exercise induced Asthma (EIA) and Exercise induced laryngeal obstruction (EILO) in our outpatient clinic using an exercise-challenge in a cold-chamber and an exercise-challenge with continuous laryngoscopy.
This study will compare the inflammatory response in induced vs inhibited exercise induced bronchoconstriction (EIB) in patients with a medical diagnosis of asthma/EIB. Urinary and plasma samples will be analysed to compare the mediator release in each condition, alongside changes in lung function.
The Swiss Paediatric Airway Cohort (SPAC) is a national, prospective clinical cohort of children and adolescents who visit physicians in Switzerland for recurrent wheeze, cough, and exercise- or sleep-related respiratory problems. SPAC aims to answer important questions on clinical phenotypes, prognosis, diagnosis and treatment. SPAC is part of routine care, and only clinically indicated investigations are done. The comprehensive baseline assessment includes a detailed questionnaire to families, plus test results, diagnoses and treatments from hospital records. Follow-up is via monthly questionnaires the first 12 months and thereafter annual questionnaires to families, and data from follow-up visits. Currently, 4344 patients from 10 clinics and hospitals in Switzerland (Aarau, Basel, Bern, Chur, Horgen, Lausanne, Luzern, St. Gallen, Worb, Zurich) have been enrolled. SPAC provides real-life data on children visiting the Swiss health care system for common respiratory problems. It will provide a research platform for health services research, and for nested clinical and transitional studies. Publications and plain language summaries are listed on the study website: https://www.spac-study.ch/publikationen/
Severe asthma affects 5-10% of more than 300 million asthmatics. Ten to twenty percent of individuals suffering from asthma do not respond well to current treatment due to the complexity of the different mechanisms underlying asthma pathogenesis, and sometimes due to an insufficient effect of treatment on underlying airway inflammation. Consequently, some asthmatics have poorer quality of life due to: frequent asthma symptoms, regular medical or emergency visits, limitation in their activities of daily living, including exercise. It is believed that the benralizumab can help to reduce airway inflammation and thus improve exercise tolerance in individuals with asthma. The main objective of this study is to determine the effect of benralizumab on exercise-induced bronchoconstriction (EIB) and exercise tolerance in moderate to severe eosinophilic asthmatics, in comparison with baseline values and a placebo treatment.
The diagnosis of exercise-induced bronchospasm (EIB) is difficult. The metacholine challenge test is not enough specific for the diagnosis of EIB. The exercise challenge test on a cycle ergometer is often use to diagnose this condition. This test has very high specificity, but not enough sensibility because the ventilation achieved during this test is often not big enough to induce a bronchospasm, especially in trained athletes. Eucapnic voluntary hyperventilation (EVH) is the recommended test of the Olympic National committee to establish the diagnosis of EIB, but there are no study comparing the sensibility and specificity of the cycle ergometer challenge test and the isocapnic hyperventilation in an establish population of asthmatics. The investigators assume that the sensitivity and specificity of EVH are higher than those of the cycle ergometer for the diagnosis of EIB in a population of asthmatics with symptoms suggestive of bronchospasm on exertion. In a population of asthmatics with exercise symptoms, what is the sensitivity and specificity of EVH and exercise challenge on a cycle ergometer for the diagnosis of EIB?
The current study aims to explore the role of prebiotic supplementation in adults with and without Asthma/Exercise-Induced Bronchoconstriction (A/EIB). All participants will be asked to consume a prebiotic supplement, and a placebo, each for a total duration of four weeks, separated by a two-week wash out period. The investigators hypothesise that improvements in pulmonary function observed in adults with Asthma following prebiotic supplementation. We hypothesise that improvements in pulmonary function will be attributed, at least in part, to gut microbiota mediated improvements in human immune function.
The purpose of this study is to investigate the bronchial inflammation and hyperresponsiveness after oil supplementation. Before and after oil supplementation the investigators measure decrease in lung function after exercise-challenge in a cold chamber and increase of inflammatory markers in the blood.
The purpose of this study is to compare the exercise-challenge in a cold chamber at 2-4°C to the gold standard the metacholine challenge in subjects showing symptoms of exercise-induced bronchoconstriction. The sensitivity and repeatability of the exercise test will be measured.