View clinical trials related to Asthma in Children.
Filter by:The investigators propose a pilot trial of kitchen ventilation in the homes of children using a youth engaged research strategy.
This is a small pilot prospective intervention trial in children with asthma who will be randomized to receive either (A) Air Quality Index (AQI) education + an asthma action plan (control) or (B) AQI education + an asthma action plan which contains AQI behavioral recommendations + demonstrate ability to navigate to AirNow either online or on smartphone app (intervention).
This is a multi-center study to evaluate fractional exhaled nitric oxide (FeNO) measured with the Vivatmo pro in adult and pediatric subjects.
Asthma is the most common respiratory disorder in children that causes breathing problems. The patients may have respiratory symptoms such as cough, wheeze, or short of breath. Asthma can be mild or severe when daily activities become compromised. Generally, by application of proper treatment, asthma symptoms can be well controlled. However, the exacerbation of the disease often leads to acute respiratory adverse events that require hospitalization and school absenteeism. In this study, we plan the remote monitoring of lung function parameters in asthmatic children (under 18 years of age). We hypothesize that the daily home monitoring of respiratory indices will predict the occurrence of exacerbation and the hospitalization can be lowered. Asthmatic children arriving for the regular examinations to the Department of Pediatrics and Pediatric Health Care Center of the University of Szeged will be involved. The patients are randomly divided into two treatment groups, telemonitoring and control. For both groups, general patient characteristics will be recorded, and lung function parameters will be measured with a clinical spirometer. Patients in the telemedicine group receive the home mobile controlled spirometer and trained by a pediatric pulmonologist for home examination. The spirometers are handed for 12 months, and children are asked to perform measurements minimum 4 times per week (at least one day a week in the morning and in the evening). In the case of asthma attacks, more frequent measurements repeated several times a day are required. Children in the telemedicine group complete the Asthma Control Test (ACT) after each measurement, which provides a numerical score related to the severity of asthma symptoms. Lung function parameters measured by children and the ACT results are automatically uploaded to a clinical server where the pulmonologists and built-in algorithms are monitoring the quality of the data. In case of deterioration of the lung function parameters, the patients are called for a personal visit and their treatment can be revised. Every three months, members of both groups come to the outpatient clinic for a personal visit, where the same examinations are performed.
This is a prospective birth cohort study assessing the role of maternal and environmental factors on the development of allergic diseases in children. Pregnant mothers will be enrolled and we will examine her skin barrier with skin tape strips (STS) and transepidermal water loss (TEWL), along with blood work. We will then follow her offspring and perform similar testing, along with detailed questionnaires inquiring about exposures such as use of detergents and soaps, sunlight exposure, and pollution exposure. When the infant is around 12 months old, we will contact the family via telephone to see if the child developed any allergic conditions within their first year of life, such as eczema, food allergy, or wheezing. A final questionnaire will be performed.
This is a randomized, prospective study to determine if there is a difference in hospital length of stay between patients receiving continuous hardwire cardiorespiratory monitoring and those receiving intermittent vital signs measurements among pediatric patients admitted for uncomplicated respiratory illness.
This study aimed to investigate the dental caries experience, periodontal health and salivary properties of asthmatic and non-asthmatic children ⁄ adolescents.
The primary objective of this study is to assess the function and reliability of a non-invasive, skin-like electronic sensor. We hypothesize that this skin sensor will address an unmet need to wirelessly, noninvasively, and rapidly assess critical vital signs and other measures essential to healthcare monitoring for patients with asthma and anaphylaxis.
The Allergen Reduction and Child Health Study (ARCHS) is a 12-month, two group randomized control trial of children with asthma and who are exposed to cockroaches. Children ages 5 - 17 living in the Greater New Orleans area will be recruited from a variety of clinic and community settings. The overall goal of the study is to improve patient-centered asthma outcomes (asthma symptom days, health care utilization, asthma control and quality of life) by targeting one key allergen - cockroach exposure in the child's home. The investigators propose a simple intervention of insecticidal bait that is low cost, simple to implement, and which is lower toxicity than other forms of pest control. The reduction in the number of cockroaches in the home is an environmental outcome that is patient-centered and is likely to add to its acceptance by families of children with asthma.
Due to a large disease heterogeneity, the proper management of childhood asthma may be a challenging task. Despite the screening of lung function is a fundamental tool, spirometry alone may not allow a reliable prediction of the disease prognosis, such as treatment response and asthma exacerbations. Recently, it has been shown that the detection of volatile organic compounds (VOCs) in exhaled breath (Breathomics) is able to predict asthma exacerbations and to discriminate children with persistently controlled asthma from those with uncontrolled asthma. These studies have been realized through gas chromatography / mass spectroscopy techniques, which also provide information on specific compounds useful for pathophysiologic research; however, they are expensive and time consuming. An alternative approach, scarcely adopted so far, is based on cross-reactive nonspecific sensor arrays (e-noses), which may provide valuable information on disease status through pattern recognition algorithms or discriminant analyses of the global sensor response pattern (breath-fingerprint). In particular, the Pneumopipe® (European patent 12425057.2, Rome, Italy) is a recent and innovative device allowing direct absorption of VOCs on a cartridge after an individual has normally breathed in it for 3 min. It is a very simple and cheap procedure, suitable for non-collaborative populations. Moreover, cartridges may be preferable over sampling bags in terms of preservation and transportability. This modern breath sampling system provides repeatable measurements, and negligible overlap has been observed with information provided by spirometry. The main objective of the present study is to assess whether baseline (pre-treatment) spirometry and e-nose measurements may predict asthma prognosis in persistent asthmatic children, in terms of response to the prescribed treatment with inhaled steroid (ICS), and to provide simple rules for discriminating treatment responders and non-responders. The secondary aim is to assess e-nose ability to predict asthma exacerbations, disease control and adherence.