View clinical trials related to Respiratory Insufficiency.
Filter by:The OPTIFLOW ™ use is becoming more common in acute respiratory failure cases, but its place in relation to VNI (Bi-PAP mode) is not yet defined. OPTIFLOW ™ vs the VNI comparison of the use, in the immediate postoperative period, should lead to define the role of each technique and lead to a optimal rationalization of patients management with acute respiratory failure after surgery.
Patients with Chronic Obstructive Pulmonary Disease (COPD) and chronic respiratory insufficiency (CRI) have severe dyspnoea during exercise at low load. Physiological studies performed in these patients during a unique session of training have shown a positive effect on exercise tolerance if non-invasive mechanical ventilation (NIV) was added during incremental effort test or endurance. Menadue and coworkers (2009) have shown in CRI patients with hypercapnia, secondary to COPD or cifoscoliosis, that combination of NIV during arm effort test improved ability to perform the exercise. Similar result was not reached using NIV during walking. Further studies have underlined a positive effect of the ventilation therapy during exercise within specific programs of pulmonary rehabilitation (Corner 2009). Moreover, the addition of NIV to an exercise training (ET) program in COPD patients may produce greater benefits in exercise tolerance and quality of life than exercise training alone (Garrod 2000). A great improvement in health-related quality of life, functional status and gas exchange in COPD patients with chronic hypercapnic respiratory failure with nocturnal NIV compared with patients in pulmonary rehabilitation alone has been also shown by Duieverman (2008). However, in the same study Duieverman did not show any significant difference between groups in terms of tolerance to effort test. Aim of the study is to evaluate if application of daily NIV during physical training may increase the benefits of rehabilitation in CRI patients with nocturnal NIV compared with patients with nocturnal NIV performing training under spontaneous breathing.
The purpose of this study is: - to estimate the frequency of the use of non invasive ventilation - to estimate the frequency of the use of palliative non invasive ventilation - to evaluate the impact of non invasive ventilation - to propose some recommendations
Main hypothesis is that Neurally Adjusted Ventilatory Assist (NAVA) allows asynchrony reduction in non invasive ventilation (NIV) in comparison with reference Pressure Support (PSV) mode. The purpose of the protocol is to compare asynchrony rate between periods of pressure support and periods of NAVA.
Weaning protocols that include the use of noninvasive ventilation (NIV), decreases the incidence of re-intubation and ICU length of stay. However, the role of NIV in post-extubation failure is still not clear. Impaired airway clearance is associated with NIV failure. Mechanical Insufflation-Exsufflation (MI-E) is an assisted coughing technique that has been proven to be very effective in patients under NIV. In this study the investigators assess the efficacy of MI-E as part of a protocol for patients that develop respiratory failure after extubation.
The study aims to assess 1) the electrical activity of the diaphragm in mechanically ventilated patients during weaning from mechanical ventilation. 2) Whether the electrical activity of the diaphragm may predict the weaning outcome
Patients requiring mechanical ventilation in the ICU will undergo three consecutive nights of polysomnography to record sleep patterns while receiving three modes of mechanical ventilation; Proportional assist ventilation (PAV), Pressure support ventilation (PSV), Assist control ventilation (ACV), applied in random order. The purpose is to determine the effect of mode of mechanical ventilation on patient-ventilator asynchrony and sleep quality.
The purpose of this study is to determine whether intravenous sildenafil reduces pulmonary artery pressure and improves oxygenation in near-term and term infants with persistent pulmonary hypertension.
The aim of the study is to test the hypothesis that an automated algorithm for desired mask pressure improves breathing pattern and sleep quality in patients with hypercapnic ventilatory failure. For this purpose, The investigators will study different groups of patients, including those with obstructive and restrictive ventilatory defect, and obstructive sleep apnoea, non-naive to conventional bi-level positive airways pressure therapy.
The purpose of this study is to compare the efficacy of CPAP application by a helmet and O2 administration by a Venturi mask in terms of achievement of criteria for endotracheal intubation during severe acute respiratory failure caused by pneumonia