View clinical trials related to Bronchiolitis.
Filter by:- Determine the efficacy of nebulized salbutamol/hypertonic saline combination in moderate to severe bronchiolitis.
The purpose of this study is to determine Fractional exhaled Nitric-Oxide (FeNO)levels and blood cytokines during acute bronchiolitis, and to seek for correlation between these markers and future development of asthma.
Nasal continuous positive airway pressure (nCPAP), widely used in neonatal intensive care is also more and more used in infants with severe acute bronchiolitis. There is no evidence that nCPAP improves outcome, but several studies showed that it reduces work of breathing (WOB), improves gas exchange and decreases intubation rate. High flow nasal prong (HFNP) therapy, also used in neonatal units, has recently been suggested for bronchiolitis management. This technique allows warmed and moist gas administration protecting nasal mucosa, and preventing variations of inspired gas FiO2. HFNP also creates a continuous positive pressure, reducing WOB, and seems much more comfortable and better tolerated by babies than nCPAP. There are no studies comparing both techniques for bronchiolitis management. The main objective of this study is to compare WOB with nCPAP and HFNP therapy in infants with severe bronchiolitis in pediatric intensive care unit. Secondary purpose is to compare efficacy and tolerance of both techniques. We propose to lead an open, single center, crossover randomized study. Each patient will receive the two treatments. Three consecutive periods will be studied: first one (minimum 2 hours), with the first technique CPAP or HFNP according to randomization (treatment 1); second period (2 hours) with the second technique (treatment 2); Third period (6 hours) with the second technique. The primary endpoint will be the comparison of WOB (estimated by the calculation of the transdiaphragmatic pressure-time product) at the end of the two firsts periods. Efficacy and tolerance of each technique will be evaluated and compared by compared measuring respiratory rate, heart rate, FiO2, SpO2, transcutaneous PCO2, modified Wood score, and EDIN score during the third period. Nine subjects by groups are required.
Nontuberculous mycobacteria (NTM) are ubiquitous organisms in the environment and are now increasingly being recognized as significant causes of chronic pulmonary infection in immunocompetent individuals (1). The most frequently encountered NTM lung disease worldwide is caused by Mycobacterium avium-intracellular complex (MAC) (2-4). In several studies with chest computed tomography (CT), researchers have demonstrated that the presence of bilateral multifocal bronchiolitis (well-defined small nodules and branching centrilobular nodules, or tree-in-bud pattern) and bronchiectasis distributed mainly in the right middle lobe and lingular segment are indicative of NTM pulmonary infection (7-11). Accordingly, it is believed that radiologic findings of bilateral bronchiolitis and bronchiectasis on chest CT scans specifically suggest NTM pulmonary infection (1). These CT findings, however, may not be specific for NTM pulmonary infection. CT patterns of bronchiectasis and bronchiolitis in the pulmonary infections caused by various NTM organisms have been reported, and these organisms include Mycobacterium kansasii, Mycobacterium xenopi, and rapidly growing mycobacteria such as Mycobacterium abscessus, Mycobacterium fortuitum, and Mycobacterium chelonae (12-14). In addition, not all patients with bronchiectasis and bronchiolitis have NTM pulmonary infection. Two recent studies showed that only about 50% of patients with such CT features have MAC pulmonary infection (9,15). To the best of our knowledge, however, there is no report about the incidence of NTM in patients with bronchiectasis or bronchiolitis in countries with low incidence of TB. Thus, the purpose of our study was to determine the frequency of NTM pulmonary infection in patients with bilateral bronchiectasis and bronchiolitis at chest CT and to investigate whether these CT findings are specifically indicative of MAC infection or other specific pathogen.
Hypothesis: That administration of nebulized therapy for bronchiolitis when using positive airway pressure is superior to standard mask ventilation in reducing hospital admissions. Bronchiolitis is a lower respiratory tract infection (LRTI) syndrome caused by a variety of different viruses. It is the most common LRTI in children under 24 months old. Multiple studies have documented variation in treatment, hospitalization rates, and length of hospital stay for bronchiolitis, suggesting a lack of consensus and an opportunity to improve care for this common disorder. Research to determine optimal delivery methods of respiratory medications that may augment oxygenation by decreasing atelectasis (Lung cell collapse) and increasing oxygen saturation have not been done. Currently bronchodilators are delivered through a passive process, inhaled as they are nebulized (made from liquid into gas) into a face mask. This study will evaluate whether using a newly developed positive pressure nebulization device that uses pressure to expand lung cells and, hypothetically, deliver the medication better, improves oxygenation by reducing atelectasis (lung cell collapse) to decrease hospitalization in infants with moderate to severe bronchiolitis. Positive pressure nebulization is a relatively new adaptation of a previously existing modality, and is already currently in use here at PCH.
With the use of molecular methods new viruses have been detected in respiratory and gastrointestinal tracts of both patients and asymptomatic subjects in recent years. The clinical importance of these viruses has not been adequately studied. The aim of this study is to use molecular methods to detect viruses in upper respiratory tract and gastrointestinal tract of children with acute bronchiolitis, acute gastroenteritis and febrile convulsions and to try to correlate the severity of clinical picture with the amount of viruses present in clinical samples. The investigators will also try to detect the increase in specific antibodies in paired sera.
Chronic organ dysfunction after lung transplantation (BOS) is the most common cause of death in long-term survivors after lung transplantation and refractory to most interventions. Early markers will be established in this project study to overcome the problem of disease recognition when impairment of graft function is already taken place. Long-term longitudinal monitoring in stable recipients of innovative markers of airway inflammation and ventilation and new imaging techniques will define different entities of chronic organ dysfunction after LTx. A database and specimen service unit for further projects will be created. Hypothesis: This project will reveal new markers and imaging tools in recipients who develop BOS after lung transplantation. These tools will allow earlier diagnosis and more accurate monitoring of the disease process. Different patterns of the disease will be characterized.
We will study if small children who become ill with respiratory distress during the RSV epidemic are better relieved with salbutamol nebulizations diluted in hypertonic (3%), instead of normal (0.9%) saline.
The purpose of this study is to investigate whether dry powder inhalation of Cyclosporine A is beneficial in lung transplant patients with Bronchiolitis Obliterans Syndrome. For patients suffering from this syndrome often no therapeutic options are available. Furthermore, the side effects of the maintenance therapy leaves no room for dose increments. The hypothesis for this trial is that when Cyclosporine A is administered locally (in the lungs) chronic rejection can be treated more effectively without extra systemic side effects.
The primary aim of this study is to determine prospectively the viral and C. pneumoniae infection prevalence and outcomes of infections in lung transplant recipients. The study will also determine the correlation of C. pneumoniae infection with the development of obliterans in lung transplant recipients.