View clinical trials related to High-frequency Ventilation.
Filter by:The goal of this clinical trial is to the short-term effects of sigh breaths during High-frequency oscillatory ventilation (HFOV) in neonate undergoing mechanical ventilation. From meta-analysis, It revealed HFOV in neonates could reduce chronic lung disease or death rather than conventional ventilation. The main question it aims to answer is: Do sigh breaths augment restoring lung volume and ventilation (CO2 level) in intubated neonate with HFOV? Participants will be applied sigh breaths (HFOV-sigh) during on HFOV. Researchers will compare HFOV-sigh mode to see if CO2 level (before-after intervention).
Mechanical ventilation was introduced to treat respiratory failure in preterm infants or sick neonates then improvements in survival (1,2). However, the complications from short or long term use of ventilation can result in unintended harm or burden (e.g., air leak syndrome, pneumonia, bronchopulmonary dysplasia, neurological injury, retinopathy of prematurity) (3,4). To reduce these risks, clinicians should aggressive extubated neonates as early as possible. Respiratory (focus on blood gas as well as partial pressure CO2 [pCO2]) or extubation (focus on clinical condition as well as reintubation) failure was worrisome in pediatrician and parents if the neonate was reintubated owing to complete recovery of lung disease or inadequate respiratory drive. Non-invasive ventilation (NIV) was supported for primary respiratory support (initial mode before endotracheal intubation) or post-extubation. Nasal continuous positive airway pressure (nCPAP) was familiar to NIV mode in neonatal respiratory support. Nowadays, the new NIV modalities are nasal intermittent synchronized positive pressure ventilation (nSIPPV) and nasal high frequency oscillation (nHFO). To increase the likelihood of nCPAP success, other new modalities of NIV may be interesting. From theory, nSIPPV and nHFO combines peak inspiratory pressure (PIP) with synchrony and high-frequency oscillations without synchrony above CPAP, respectively. From meta-analysis, nSIPPV and nHFO were statistically significant superior than nCPAP both respiratory and extubation failure in neonate (5,6). The aim of our study was to investigate the efficacy of nHFOV and nSIPPV for CO2 clearance and reintubation rate after extubated neonates. The investigators hypothesized that nHFOV mode would improve CO2 clearance better than nSIPPV mode.
The purpose of the study is to evaluate the benefit on image quality of MRI of the chest performed under high frequency non-invasive ventilation. This technique indeed allows to generate an apnea duration of several minutes with acquisitions performed at full inspiration. This study will be applied on healthy subjects.
The purpose of the study is to assess the efficacy of high-frequency non-invasive ventilation on apnea duration, carbon dioxide clearance and oxygen delivery in healthy subjets and patients with lung disease.