View clinical trials related to Asthma in Children.
Filter by:The aim of this pilot randomised controlled trial is to assess the effectiveness of a short-term financial incentives intervention at bringing about behaviour change, namely short-medium term improvements in inhaled corticosteroid (ICS) adherence and asthma control in children and young people (CYP) with asthma.
The purpose of this study was to establish the effect on pulse rate, oxygen saturation, respiratory rate, pain and anxiety levels of Fowler's and the forward-leaning positions during nebulization in children experiencing asthma attacks.
This is a prospective, observational study to investigate the agreement of the Leo device signal derivation with gold standard asthmatic testing in recently exacerbated asthmatic children. This study is designed for engineering validation of a wireless, wearable device (Leo) for assessing clinical control of children recovering from acute respiratory event such as asthma attack. The Leo device will monitor chest impedance, ECG and body position to calculate parameters such as respiration rate, heart rate, lung volume, tidal breathing flow and volume curves, and body position. These parameters will then be used to train and algorithm to assess clinical control of asthma.
As inflammation and oxidative stress increase in asthma patients, the severity of symptoms and clinical findings increase. Therefore, this study was planned to evaluate the possible effect of inspiratory muscle training (IMT) on inflammation markers and oxidative stress in childhood asthma. The study included asthma patient; 35 routine medication, 35 drug therapy and inspiratory muscle training (IMT), and 35 healthy total 105 children aged 8-17 years. Demographic information and hemogram values were recorded. Functional capacity was evaluated with the 6-minute walking test, quality of life PedsQL, respiratory muscle strength oral pressure measuring device, respiratory function test, dyspnea severity with Modified Borg Scale. C-Reactive Protein (CRP), Periostin, Transforming Growth Factor-βeta (TGF-β), Total Antioxidant Status (TAS), Total Oxidant Status (TOS), Oxidative Stress Index (OSI) were analyzed. IMT was given with a Threshold IMT device for 7 days/6 weeks at 30% of maximal inspiratory pressure, and then a second evaluation was made.
Asthma is a common pediatric condition that can be well controlled with regular use of controller medications, however adherence to these is low, resulting in preventable exacerbations and important short- and long-term morbidity. This project's aim is to understand cognitive factors influencing adherence to medication among children with asthma, examining specifically the influence of scarcity (a mindset experienced by those with less than they need, which is cognitively taxing) and future discounting (the focus on present concerns at the expense of distant ones). Using a single-centre, 12-month, prospective observation cohort study of 300 families of children with asthma, the objectives of this study are to: 1. Identify the relationship between scarcity, future discounting, and adherence to asthma medication. 2. Evaluate whether unmet social needs are associated with scarcity and future discounting. 3. Determine whether scarcity and future discounting mediate the relationship between unmet social needs and adherence to medication. Primary outcome will be adherence to controller medication, which will be measured for the 12 months of follow-up on a scale of 0 to 100%, by the 'proportion of prescribed days covered (PPDC)', a validated index calculated as the number of days for which the drug was dispensed by a pharmacy, divided by the number of days for which it was prescribed. Other measures include screening families for unmet social needs, psychometric testing to document scarcity and future discounting. This study will increase our understanding of how cognitive factors influence adherence to asthma controller medication, which will be instrumental in developing targeted interventions to improve adherence, especially for families experiencing with unmet social needs.
Childhood asthma is the most common chronic respiratory disease in childhood. The essence of asthma is chronic airway inflammation and airway hyperresponsiveness.The physiological characteristics of children and adults are very different, and the compensatory ability is very strong. There are often no obvious symptoms at the early stage of attack, or only intermittent or persistent cough of different degrees, without typical chest tightness and asthma.However, at this time, certain physiological indicators such as blood oxygen, heart rate, respiratory rate may have been significantly abnormal.If the disease continues to deteriorate and progresses to decompensation, it can quickly move from an asymptomatic state to a failure stage.Therefore, dynamic and accurate acquisition of real-time vital signs and assessment is of great significance for early warning and improvement of prognosis of asthma attacks in children.Intelligent wearable devices can be used to acquire real-time physiological index data of users, such as heart rate, blood oxygen, exercise and sleep dynamic data.An in-depth analysis of long-term and multi-scene dynamic data before and after asthma attacks can establish an early warning model for children with acute asthma attacks by wearable wrist smart devices, which may provide important help for severity assessment, follow-up tracking and out-of-hospital prevention and control of the disease.
Social isolation rules applied to prevent and control COVID-19 disease reduce cross-infection, exposure to more allergens in the home environment, reducing hospital admissions by avoiding contamination, asthma control, fear of COVID-19 and physical activity for reasons such as increased anxiety and lack of exercise. How it will affect is unclear. Considering all these, positive or negative changes in asthma-related risk factors, changes in physical activity level, asthma attacks and control, fear of COVID-19 will be examined and contribute to the literature in children with asthma.
The purpose of this study is to learn more about how asthma develops in early childhood. This will help doctors understand how to prevent and treat asthma better.
The prevalence of asthma in preschool children is between 11 and12%. Inhaled corticosteroid therapy is the main therapy used, however this treatment seems insufficiently effective in some children. Recent research in cystic fibrosis has made it possible to highlight pulmotypes corresponding to the different stages of pulmonary dysbiosis, and a predictive microbiological signature of an increased risk of early primocolonization to P. aeruginosa. These pulmotypes are the result of the so-called "enterotyping" analysis, a biostatistical method that makes it possible to stratify individuals according to the analysis of the microbiota. In the light of these data, it seems interesting to transcribe the concept of using a biomarker of the microbiota in the monitoring of a chronic lung disease such as asthma. The hypothesis is that there is respiratory dysbiosis causing corticosteroid resistance to treatment in children under 3 years of age with severe asthma.
Single-center, case-control, longitudinal, observational, population based cohort study with stratified sample (by age group, gender, and residential area).