View clinical trials related to Bronchiolitis.
Filter by:Bronchiolitis is the most common respiratory infection of the lower respiratory tract that affects 11-12% of infants in their first year of life. Approximately 1-2% of patients with bronchiolitis require hospital admission because of poor feeding and/or breathing difficulties. The standard treatment for bronchiolitis is represented by oxygen-therapy and hydration while neither steroids nor epinephrine nor bronchodilators are recommended. One of the techniques of administration of oxygen in bronchiolitis is represented by the high flow (HFNC) or by a system in which oxygen is delivered to 2L/kg through nasal cannulas. The HFNC provides humidification, heating and oxygen, ensuring a minimum positive pressure, reduces breathing load and allows for better nutrition. The main aim of therapy with high flows is to reduce the days of oxygen therapy and the cases of intubation. However, up to now, there have been few studies on the use of HFNC in Pediatric Emergency Units. The Cochrane review on this topic, updated in May 2013, included only one randomized controlled trial (RCT) on a pilot study of 19 subjects comparing HFNC with oxygen administered via "head box". The oxygen saturation was higher in children HFNC after 8 (00% versus 96%, p=0.04) and 12 hours (99% vs 96%, p=0.04) but similar in both groups at 24 hours. The authors concluded that the available evidence is insufficient to determine the effectiveness of HFNC. The aim of this study is to evaluate in a large number of cases the effectiveness of treatment with high flow versus standard treatment, in children with bronchiolitis referred to a Pediatric Emergency Department.
Binary randomized peep level of Helmet CPAP (1-0). The first patient enrolled will be assign to treatment 1 (10 cmH2O peep level), independently from its BSS. The following patients enrolled will be assign to treatment 0 (5 cmH2O peep level), and consecutively up to 25 patients at least. - 10 cmH2O peep, 50 L/min gas flow, fraction of inspired oxygen (FiO2) 0.5 on PICU admission (random 1) - 5 cmH2O peep, 50 L/min gas flow, FiO2 0.5 on PICU admission (random 0) If clinical and respiratory worsening, reduction of pH or partial oxygen arterial pressure (PaO2)/FiO2 occurs in the following first hour after Helmet CPAP treatment start, patients enrolled will receive endotracheal intubation, full face mask non invasive ventilation or higher peep level treatment (7.5-10 cmH2O) according to clinical evaluation, if necessary. In investigator's experience, early worsening of severe bronchiolitis in PICU in the first hour of Helmet CPAP treatment with 10 cmH2O peep level leads to endotracheal intubation.
The diagnosis of bronchiolitis, the most frequent lung infectious disease in infancy, is based on clinical examination. Chest X-ray is proposed when a lung parenchymal condensation is suspected. Chest ultrasound is supposed to be a useful tool in the diagnosis of these complication but is poorly evaluated. We aim to compare chest X-ray and chest ultrasound for the diagnosis of parenchymal condensation in infant with bronchiolitis.
The purpose of this study is to determine whether nebulized 3% hypertonic saline is more effective than the current standard of care in the treatment of viral bronchiolitis in children.
This study evaluates the effectiveness of nebulized 3% hypertonic saline solution with salbutamol in the treatment of children under 2 years, hospitalised for acute viral bronchiolitis. Half of the participants will receive nebulized 3% hypertonic saline solution with salbutamol three times daily, the other half will receive standard supportive care, which is the cornerstone of the bronchiolitis management.
Infants with viral bronchiolitis are currently treated with oxygen therapy if oxygen saturation is low. In earlier observational clinical studies, the use of high flow nasal cannulae therapy in infants with bronchiolitis has been associated with a decreased rate of intubation and intensive care. This study is a randomized controlled trial in two pediatric university hospitals in Finland comparing high flow nasal cannulae therapy to usual oxygen therapy in infants with bronchiolitis.
The combined administration of high dose of oral betamethasone and nebulization of adrenaline seems to be an attractive therapeutic alternative for reducing the rate of hospitalization for acute bronchiolitis treated in the emergency department. However, it is essential to confirm the trend previously observed with this treatment before using it in current practice.
The objective of this study is to detect BOS in an early stage by using the outcome parameters generated by Functional Respiratory Imaging (FRI). Robust and automated segmentation algorithms will be developed for these parameters, focusing on quantitative computed tomography (CT) image analyses to provide the physician a more sensitive diagnostics tool. The evolution of rejection over time will be monitored using non-rigid image registration methods.
The aim of this prospective pilot study is to determine the effect of heliox delivered via a proprietary calibrated heated and humidified high flow nasal cannula (HFNC) system (Vapotherm Precision Flow Heliox) in children ages 0-24 months with severe bronchiolitis.
The purpose of our study is to determine the safety, efficacy, length of stay and parental satisfaction of the NoseFrida in comparison to a suction device used in the hospital setting in patients with bronchiolitis admitted under observation status.