View clinical trials related to Non Invasive Ventilation.
Filter by:High frequency oscillatory ventilation (HFOV), as an ideal lung protection ventilation method, has been gradually applied to neonatal intensive care treatment, and is currently recommended as a rescue method for neonatal acute respiratory distress syndrome (ARDS) after failure of conventional mechanical ventilation. Although its ability to improve oxygenation and enhance carbon dioxide (CO2) clearance has been repeatedly demonstrated in laboratory studies, its impact on the clinical results of these patients is still uncertain. Noninvasive high-frequency oscillatory ventilation (nHFOV) combines the advantages of HFOV and non-invasive ventilation, and has become the current research focus in this field. It is recommended to use it after the failure of routine non-invasive ventilation treatment to avoid intubation. For the treatment of intubation, there is still a lack of large-scale clinical trials to systematically explore its efficacy. The gradual increase of clinical application of nHFOV has also enriched its application in the treatment of other diseases. At present, non-invasive high-frequency oscillatory ventilation has not been applied to the study of adult COVID-19 with acute hypoxemia, which will be the first study in this field.
High-frequency oscillatory ventilation (HFOV), as an ideal lung-protecting ventilation method, has been gradually applied to neonatal intensive care treatment, and is currently recommended as a rescue method for neonatal acute respiratory distress syndrome (ARDS) after conventional mechanical treatment fails. ventilation. Non-invasive high-frequency oscillatory ventilation (nHFOV) combines the advantages of HFOV and non-invasive ventilation methods, and has become a research hotspot in this field. Recommended to avoid intubation after failure of conventional non-invasive ventilation therapy. There is a lack of large-scale clinical trials systematically exploring its efficacy for intubation therapy. The increasing clinical application of nHFOV has also enriched its application in the treatment of other diseases. Human-machine asynchrony during non-invasive ventilation will seriously affect its efficacy, but no one has reported on the research related to nHFOV human-machine asynchrony.
High-frequency oscillatory ventilation (HFOV), as an ideal lung-protecting ventilation method, has been gradually used in neonatal critical care treatment, and is currently recommended as a rescue method for neonatal acute respiratory distress syndrome (ARDS) after failure of conventional mechanical ventilation. . Although its ability to improve oxygenation and enhance carbon dioxide (CO2) scavenging has been repeatedly demonstrated in laboratory studies, its impact on clinical outcomes in these patients remains uncertain. Non-invasive high-frequency oscillatory ventilation (nHFOV) combines the advantages of HFOV and non-invasive ventilation methods, and has become a current research hotspot in this field. It is recommended to be used to avoid intubation after conventional non-invasive ventilation therapy fails. For the treatment of intubation, there is still a lack of large-scale clinical trials to systematically explore its efficacy. The gradual increase in the clinical application of nHFOV has also enriched its use in the treatment of other diseases.
Home ventilation in children, invasive or non invasiv,e is an interesting treatment for different disease which cause chronic respiratory impairement. The aim of this treatment is to support alveolar hypoventilation. Concerned diseases are : neuro-muscular disease, upper airways pathologies, whest wall or lung pathologies, central control ventilation disease. Prevalence of home children ventilation is in augmentation in France. The last national study in 2021 about infants show a prevalence of 9.3/100 000. Advantages with home children ventilation in addition of improvement of survey, we can observe improvement of quality of life and improvement of the quality of their sleep. Quality of life is a thematic less studying. Last studies show an impairment of quality of life in all thematics compare to children with no disease but also with infants whith chronic diseases. This study were about few numbers of patients. The aim of our study is to evaluate the quality of life and the quality of sleep in children with home ventilation to complete the actual littérature to improve the respiratory care of this population.
The opening and aeration of the lung is critical for a successful transition from fetal to neonatal life. Early nasal CPAP in the delivery room in spontaneously breathing premature babies with a gestational age of 30 weeks or less is a standard treatment approach since it reduces the need for invasive mechanical ventilation and surfactant therapy. In respiratory distress syndrome (RDS) management, providing optimal lung volumes in the very early period from the beginning of delivery room approaches probably augments the expected lung protective effect. Although the benefits of CPAP support are well known, standart CPAP pressures recommended in the guidelines may not meet the needs of individual babies. Maintaining lung patency in the delivery room is the main mechanism of action of CPAP and the requirement may vary individually depending on lung physiology. In this multicenter randomized controlled study, we aimed to compare the effects of CPAP therapy applied with a personalized open lung strategy (openCPAP), and standard CPAP therapy (standardCPAP) on oxygenation, respiratory support need and surfactant treatment requirement in preterm babies with RDS in the delivery room.
NIV can be combined with other treatments that require to introduce gas into the circuit during the treatment. This external gas produces trigger asynchronies that worse depending on the model ventilator, trigger design and gas source. It is advisable to monitor NIV when these treatments are requiring in chronic NIV.
This research aims to understand if prone positioning combined with high-flow nasal cannula (HFNC) or non-invasive positive pressure ventilation (NIPPV) safely reduce the rate of intubation in acute hypoxemic and/or hypercapnic respiratory failure secondary to COVID-19 infection.
This study will be conducted in Ain Shams University Hospital in the general intensive care unit after ethical committee approval number (FMASU R 9/2020) .It is a prospective randomized controlled study. Eligible patients will be randomized by computer system to one of two groups either High Flow Nasal Oxygen (HFNO) group or Non Invasive Ventilation (NIV) group. Inclusion criteria includes admitted immunocompromised patients to our general 34 beds ICU with acute hypoxemic respiratory failure (ARF).
Before inclusion in the trial. Careful medical history and medication use will be asked. Once included, 5 healthy subjects non-invasive ventilation(V60, Philips, Eindhoven, The Netherlands) will be administered at a level of positive end expiratory pressure (PEEP) of 4 cmH2O and without additional inspiratory support. Inspiratory support will then increase by 2 cmH2O every 2 minutes until 8 cmH2O is achieved for 2 minutes. The energy expenditure is measured using indirect calorimetry (Q-NRG®, Cosmed, Italy). To measure respiratory effort, the reversed RPE-scale was created for the purpose of the study. It uses the validated "rate of perceived exertion" scale (RPE-scale) which was altered by adding a reversed part. This could result in a score of -10 (no respiratory effort) until +10 ( maximal respiratory effort) where 0 represents the basal respiratory condition. Monitoring of heart rate, blood pressure and cardiac output will be done ( Nexfin®, BMEYE, Amsterdam, The Netherlands). After termination of the study clinical observation by principal investigator or co-investigator will be done for 15 minutes or until all side effects have worn off. If no side effects are observed, subjects will be released.
Pulmonary rehabilitation programmes including aerobic exercise training have strong evidence of effectiveness in improving exercise capacity, dyspnoea and HRQL in patients with COPD. Therefore, current guidelines recommend pulmonary rehabilitation, including exercise training, in these patients. Non-invasive ventilation(NIV) is increasingly used during exercise training programmes in order to train patients at intensity levels higher than allowed by their clinical and pathophysiological conditions. Patient-ventilator asynchrony (PVA) describes the poor interaction between the patient and the ventilator and is the consequence of the respiratory muscle activity of the patient being opposed to the action of the ventilator.PVA have unfavourable clinical impace on gas exchange, dyspnoea perception, patient comfort and tolerance and reduced adherence to NIV. This study is going to detect whether the PVA will increase when COPD patients exercise with NIV supporingt