View clinical trials related to Respiratory Insufficiency.
Filter by:Diagnosis of pneumonia remains difficult in intensive care unit (ICU), notably after cardiac surgery. Lung ultrasonography (LUS) has been successfully used for diagnosis of pneumonia, but its usefulness and reliability was never evaluated after cardiac surgery. This study investigates the clinical relevance of LUS for pneumonia diagnoses in cardiac ICU.
Acute respiratory failure (ARF) is a life-threatening emergency which occurs due to impaired gas exchange. In the US, the number of hospitalisations owing to acute respiratory failure was 1,917,910 in the year 2009.(1) The incidence of ARF requiring hospitalization was 137.1 per 100,000 population.(2) In ARF due to chronic obstructive pulmonary disease (COPD) and cardiogenic pulmonary edema, non-invasive ventilation (NIV) has been shown to be beneficial. NIV also has several advantages over invasive mechanical ventilation. These include, avoidance of endotracheal intubation and its attendant complications like airway injury, nosocomial infections, and possibly shorter duration of intensive care unit (ICU) stay.(3, 4) The success of NIV depends on several factors like the etiology of the respiratory failure, careful monitoring by the treating physician, and also adequate cooperation of patient. Better synchrony of the patient's spontaneous breaths with the ventilator-delivered breaths may lead to better patient cooperation and thereby, better clinical outcomes. Patient-ventilator asynchrony (PVA) leads to dyspnea, increased work of breathing, and prolonged duration of mechanical ventilation.(5) Pressure support ventilation (PSV) is one of the commonest mode used during NIV. In a prospective multicenter observational study, severe asynchrony (defined as an asynchrony index of >10 %) was seen in 43% of patients of patients with ARF ventilated by NIV with the conventional PSV mode.(6) Neurally adjusted ventilator assist (NAVA) is new mode of ventilation which utilizes the electrical activity of the diaphragm to deliver the breath.(7) During NAVA, breath is delivered when the patient's diaphragm starts contracting. Further, the amount of pressure support given during the breath is proportional to the strength of the electrical signal from the diaphragm. Finally, NAVA also terminates the breath when the electrical activity of the diaphragm wanes. NAVA has been shown to avoid over-assistance, decrease intrinsic positive end-expiratory pressure (PEEP), and minimize wasted efforts.(8) Hence, NAVA may play a major role in improving patient-ventilator synchrony. In a pooled analysis of studies comparing NAVA with PSV during NIV, it was shown that the use of NAVA significantly improved patient-ventilator synchrony.(9) However, so far, no clinical trial has demonstrated that this improvement in synchrony translates into better clinical outcomes. In this randomized controlled clinical trial, we intend to compare the rates of NIV failure and mortality between NAVA and PSV in subjects with acute respiratory failure managed with NIV.
WEAN SAFE (WorldwidE AssessmeNt of Separation of pAtients From ventilatory assistancE) is a multi-centre, prospective, observational, 4-week inception cohort study being carried out by the Acute Respiratory Failure section of ESICM. Weaning represents a challenge for intensivists and patients spend a considerable amount of time in being liberated from mechanical ventilation. While guidelines do exist on the classification of weaning, a recent study has shown that these may not be applicable to all patients. Moreover, different practices exist in regard to weaning procedures. WEAN SAFE will prospectively assess the burden of, management and spectrum of approaches to weaning from ventilation, in patients that require invasive mechanical ventilation for any reason, for a time period of at least 24 hours.
Post extubation respiratory failure occur in 30% of extubated patients. More than 50% of them required reintubation. Noninvasive positive pressure ventilation (NIV) had been reported as an effective tool to prevent post extubation respiratory failure. Recently, high flow oxygen nasal cannula (HFNC) had been successfully used to prevent post extubation respiratory failure and prevent reintubation in comparable with NIV among post cardiothoracic surgery and high risk for reintubated patients. There was no information about HFNC versus NIV in prevention of reintubation among severe sepsis or septic shock patients.
This study evaluates the prognostic value of arterial blood gas analysis in a cohort of Emergency Department patients presenting with shortness of breath of any cause, comparing obese and non-obese patients.
The subjects of this study are the chronic obstructive pulmonary disease (COPD) patients with chronic II respiratory failure. The participants will be divided into two groups: The Portable Home Noninvasive Ventilator treatment group and the routine home oxygen inhalation treatment group. All subjects will be given a stable COPD regimen and conventional oxygen therapy ,but the portable home noninvasive ventilator treatment group will need to wear a portable non-invasive ventilator. Objective evaluation indexes were established during the routine treatment, and two groups of subjects will be followed up for one year. Finally, the clinical data of all subjects will be analyzed,and then the practicability of portable wearable household noninvasive ventilator will be verified.The researchers will also build a remote breathing data-monitoring platform based on mobile internet,and a community home demonstration application point.
High-intensity noninvasive positive pressure ventilation (NPPV), which can well improve the gas exchange and reduce the work of breathing of patients, is a new strategy targeted at maximally reducing arterial carbon dioxide. However, no definitive conclusions have been drawn to decide whether high-intensity NPPV is the best setting for treating patients with chronic hypercapnic COPD. For now, no unified method for setting up high-pressure NPPV has been established. Most of the trials utilized gradually increased inspiratory positive airway pressure depending on the patient's tolerance. However, from a respiratory physiology point of view, excessive inspiratory positive airway pressure may lead to lung hyperinflation, increased intrinsic positive end expiratory pressures, increased oxygen consumption, and ineffective work of breathing.Therefore, seeking a method to establish individualized high-intensity NPPV is of vital importance.
The purpose of this study is to determine the impact of hign-flow nasal therapy on the adult with hypercapnia and hpoxemia respiratory faliure in comparison with standard oxygen therapy ang noninvasive ventilation.
This is a quality improvement study with the purpose of observing and measuring the effects of implementation of a proven standardized lung protective ventilation protocol in the new electronic medical record system iCentra across all Intermountain Healthcare hospitals. Approximately 14,000 records will be accessed for this study from a database of mechanically ventilated patients established for quality improvement purposes. The investigators hypothesize that implementation of a standardized computerized lung protective ventilation protocol across all Intermountain Healthcare hospitals will be feasible, will decrease initial tidal volumes to the target 6 ml/kg PBW, and will improve outcomes. The objectives of this study are to: - Determine if the implementation of lung protective ventilation (with a 6 ml/kg PBW tidal volume ventilation protocol on initiation of mechanical ventilation) improves outcomes in patients with acute respiratory failure requiring mechanical ventilation - Determine if the implementation of lung protective ventilation (with a 6 ml/kg PBW tidal volume ventilation protocol on initiation of mechanical ventilation) improves outcomes in the sub-group of patients with the acute respiratory distress syndrome (ARDS) - Measure compliance with the implementation of a computerized lung protective ventilation protocol at 12 Intermountain Healthcare hospitals
High flow nasal oxygen therapy has been widely used but guidelines as to the optimal starting flow rate and oxygen percentage are not available. Prolonged exposure to an inappropriately high oxygen concentration should be avoided as there is increasing evidence that the production of oxygen free radicals can lead to lung damage. This pilot dose finding study will determine the optimal flow rate and oxygen concentration using HFNO2 for patients with respiratory failure requiring low, medium or high oxygen concentration from conventional low flow devices. An assessment will also be made of comfort and compliance with HFNO2.