View clinical trials related to Chronic Lung Disease.
Filter by:Bronchopulmonary dysplasia (BPD), also known as chronic lung disease (CLD), is a major complication of premature birth and is associated with a significant increased risk of complications including death. Diuretics have been used for decades in babies with BPD and are considered a standard of care. Patients receive electrolyte supplementation to replace the electrolytes removed by the diuretics. Spironolactone is not as good as other diuretics at removing extra fluid, but it is different from chlorothiazide and furosemide because instead of removing potassium, it actually can increase potassium levels in our body. Spironolactone is used with chlorothiazide to try to minimize the potassium lost; therefore, reduce the electrolyte supplementation needed. However, studies have suggested that preterm babies aren´t developed enough to appropriately respond to spironolactone. Also, one study has shown that adding spironolactone to chlorothiazide in patients with BPD has no effect on whether or not patients receive electrolyte supplementation. This study will examine whether there is a difference in the amount of electrolyte supplementation between patients receiving chlorothiazide only or chlorothiazide plus spironolactone. the investigators hypothesize there will be no difference in the amount of electrolyte supplementation between the two groups.
Most patients with chronic lung disease underestimate their actual walking ability due to low confidence. To better understand the relationships between lung function, self-efficacy for walking (confidence in ability to walk a defined distance), actual walking ability for the same distance gait speed and physical activity level-PAL- (total energy expenditure/resting metabolic rate). Quality of life, self efficacy for activity questionnaires, physical activity level measurement, 4-meter gait speed and 6-minute walk distance will be measured.
The purpose of this study is to evaluate the efficacy of clarithromycin in eradication of ureaplasma urealyticum and prevention of chronic lung disease in premature infants with birthweight < 1250 g and have ureaplasma urealyticum colonization.
The purpose of this research is to address the comparative effectiveness and harm of the therapeutics frequently given to pregnant women and their young infants including antibiotics, tocolytic agents, non-steroidal anti-inflammatory drugs, H2 blockers, and steroids. Our overall hypothesis is that the use of an existing electronic medical record with additional resources for precise data collection and 18 month follow up will successfully address current knowledge gaps in therapeutic effectiveness and relative therapeutic harm. We will use an existing electronic medical record into which detailed healthcare information is entered for over 100,000 newborns each year. These infants will comprise the "Source Cohort". Nested within that database, we will prospectively enroll 10% of the population (10,000 newborns) as the Follow-Up Cohort. The current electronic medical record for the Source Cohort does not capture therapeutic dosing with sufficient precision to conduct comparative effectiveness research sufficient to change medical practice. The proposed research will: 1) ensure accurate data collection through electronic monitoring and real-time quality assurance evaluation in the Source Cohort; and 2) conduct 18 months post-hospital follow-up for neurologic outcomes and disability for the Follow-Up Cohort. We will complete assessments of neurologic outcomes and disability using an interactive web-based system, mail, telephone follow up, and in-person examination.
Background: in various pediatric pulmonary diseases such as asthma, cystic fibrosis or bronchopulmonary dysplasia an increased inflammation is present. Measuring this inflammation is often hardly possible and requires invasive techniques such as bronchoscopy. With the use of exhaled breath condensate (EBC) or exhaled breath (EB) analysis it is possible to measure the inflammation in an non-invasive way. However, there is a great need to further standardise these measurements and to identify possible confounding factors.
Infants less than 2 years old who have been newly diagnosed with problems swallowing will have pulmonary function tests performed to try to detect the presence of chronic lung disease. Six months later after the infants have received appropriate therapy for their swallowing problems, pulmonary function tests will be performed again to see if there has been any change in their chronic lung disease.
Interstitial lung diseases (ILD) in children represent a heterogeneous group of rare and not well defined disorders. Genetic abnormalities of surfactant proteins B (SFTPB) and more recently C (SFTPC) have been shown to be related to these pathologies. However, variability in the lung disease phenotype suggests the involvement of other surfactant-associated genes such as ABCA3 (ATP-binding cassette, sub-family A, member, 3). Thus, the aim of this project is: 1) to assess the prevalence of SFTPC mutation in children with chronic lung diseases, 2) to precise clinical and radiological features of children with SFTPC mutation, and 3) to identify environmental or genetic factors that may explain the extreme variability of this disease.
Exercise training has been shown to reduce breathlessness and improve the exercise tolerance of people with lung disease. However, the effect of exercise training on the walking speed selected by these people during day-to-day life is unknown. Furthermore,the investigator do not know if exercise training changes the maximum speed that these people can walk at for a long period of time. This study will examine the relationship between walking speed and walking endurance before and following exercise training in people with lung disease and contribute importantly to our understanding of how patients choose to walk in relation to their capabilities.
The purpose of this study is to determine if sequence variations in genes involved in the development and function of vulnerable organs increases susceptibility to chronic lung disease (CLD) and other diseases affecting premature infants, such as necrotizing enterocolitis (NEC), sepsis, patent ductus arteriosus (PDA) and intraventricular hemorrhage (IVH). The study will also determine whether measurement of certain biomarkers in serum will identify infants who will develop these complications of prematurity. Previous studies from this institution and others have identified genetic variants in some genes, such as toll like receptor genes are associated with higher risk of CLD or NEC. The interaction of these variants with other gene variants that can influence the risk of these diseases remains unclear.
The present study will test the use of very early nasal continuous airway pressure(NCPAP)with and without surfactant in premature infants with clinical evidence or respiratory distress syndrome. We hypothesize that premature infants exposed to very early NCPAP and surfactant will require less mechanical ventilation compared to those premature infants exposed to NCPAP alone.