View clinical trials related to Asthma, Exercise-Induced.
Filter by:The overall aim is to explore pathophysiological factors related to airway hyperresponsiveness to direct and indirect provocation stimuli in athletes with different sport activities, with special focus on epithelial reaction linked to CC16 and to eicosanoid related inflammatory response. The investigators also wish to compare indirect testing done as hyper osmotic challenge with Mannitol compared to a defined sport specific exercise challenge.
This is a multicentre, randomised, double-blind, placebo-controlled, 4-way cross-over study. At each study visit a standardised treadmill test will be performed to provoke EIA. Before and after the challenge test pulmonary function variables (e.g. forced expiratory volume in one second (FEV1)) will be measured in order to assess the protective effect of the study medication.
We hypothesize that exercise-induced bronchospasm (EIB) at the NCAA Division I collegiate level is over diagnosed, while poorly controlled asthma resulting in exercise-related symptoms in this same population may be under diagnosed, being erroneously attributed to EIB. This project will test individuals self-identified as having exercise induced bronchospasm or asthma, as well as gender-matched controls from the same sport, with eucapnic voluntary hyperventilation to assess for the presence of EIB or asthma. By making the correct diagnosis, improved health outcomes may be achieved and athletic performance may be enhanced.
This research is being conducted to help us better understand what causes exercise induced asthma. The investigators hypothesize that two types of chemicals, cysteinyl leukotrienes and adenosine, play an important role. The investigators will be measuring these chemicals in the exhaled breath of volunteers with exercise induced asthma as they undergo a test to mimic exercise induced asthma. The investigators will determine how the levels of these chemicals change in association with how lung function changes before, during and after an episode of exercise induced asthma.
The term exercise-induced bronchospasm (EIB) describes acute, transient airway narrowing that occurs during, and most often after, exercise. Manifestations of EIB can range from mild impairment of performance to severe bronchospasm and respiratory failure. The pathogenesis of EIB remains controversial and the role of airway inflammation has not yet been definitively characterized. We plan on comparing markers of inflammation in asthmatic participants with and without EIB at baseline and after bronchoprovocation with eucapnic voluntary hyperventilation testing (EVH). We also will collect demographic information as well as information about asthma control and exercise habits.
Exercise-induced bronchoconstriction (EIB) is a condition where airways tighten when you exercise and may cause coughing, wheezing, or shortness of breath. In many patients, this condition can cause lung function to drop making it harder to breath. An instrument called a spirometer is commonly used to measure lung function. This traditional means of assessing lung function in asthma is limited in its ability to provide information as to where in the lung the tightness is. Hyperpolarized helium magnetic resonance imaging (3He MRI) is a novel way to see the where air is going in the lungs using an MRI and special gas. The ability to see where the air can and cannot reach in the lungs may help show more accurately if a medication is working to make the asthma better. The purpose of this study is to examine patients with EIB in order to see if 3He MRI provides a better way to measure lung function. Patients will be given either montelukast sodium, a drug to improve the ability to breath with EIB, or placebo and then put on a treadmill to induce an occurrence of airway constriction. The patient's lung function will be measured more than once using both the spirometer and the 3He MRI.
It is our primary hypothesis that pretreatment with arformoterol will provide superior protection against EIB in children with mild-moderate asthma compared to placebo added to the current asthma regimen. Our secondary hypothesis is that nebulized arformoterol has comparable protection against EIB compared to inhaled formoterol by dry powder inhaler.
The purpose of this study is to determine if treatment of exercise-induced Bronchospasm with montelukast will help college athletes train more effectively and thus become more competitive in a non ergogenic manner.
The purpose of this study is to determine whether it is effective in the treatment of exercise-induced asthma and investigate the safety of oglemilast.
The purpose of the study is to test how well 2 different medications stop asthma symptoms caused by exercising. The two medications that will be tested are "pretreatment with albuterol" and montelukast (Singulair®). Although both medications are used for treating asthma, we don't know which medicine is better at stopping asthma symptoms caused by exercising.