View clinical trials related to Acute Respiratory Failure.
Filter by:This is a stepped-wedge, cluster randomized, trial evaluating the effect of an early goal-directed mobilization intervention for ICU patients with acute respiratory failure within 12 medical and surgical ICUs across 4 hospitals in the University of Pennsylvania Health System. The investigators will conduct a 54-week trial to measure the effect of the intervention on multiple patient-centered outcomes of patient physical function and cognition, in addition to ICU and hospital length of stay and duration of mechanical ventilation compared to usual care.
To demonstrate that a strategy involving early first-line enteral nutrition is associated with improved preservation of gut mucosa integrity, as assessed based on the plasma citrulline level at H72, compared to a strategy involving early first-line parenteral nutrition
Acute respiratory failure (ARF) is a frequent reason for consulting in the Emergency Department (ED) and one of the major clinical problems prompting admission in intensive care unit. In the ED, evaluation of an ARF is mainly based on clinical examination and frontal chest x-ray performed to the patient bedside. This practice has a limited diagnostic capacity due to a lack of specificity of clinical and radiological semiology, especially in the polypathological patient. Thoracic ultrasonography provides morphological information regrouped as a syndrome (interstitial syndrome, alveolar condensation, pneumothorax) and allows the identification of pleural effusions (PE). The PE diagnosis is easy, quick, and relies on two-dimensional ultrasound imaging. Compared to CT scan, which remains the reference examination although ill-suited in the context of emergency, thoracic ultrasonography has a sensitivity and specificity greater than 90% for pleural liquid (PL) diagnosis. In addition, thoracic ultrasonography is used to assess the volume of PL, determine its nature and guide the pleural puncture with higher performance than chest x-ray. The semi-quantitative evaluation of PEs has been validated in patients with mechanical ventilation hospitalized in intensive care unit. On the other hand, few data on the prevalence and quantification of PL for hospitalized patients in ED for an ARF are currently available. Thus, the objective of this study is to evaluate the prevalence and severity of the PL identified by thoracic ultrasonography in patients admitted to the ED for an ARF by emergency physicians with ultrasound skills recommended by the French Society of Emergency Medicine.
This study aims at assessing the correlation between trans esophageal pressure and related respiratory mechanics (including, among others, nasal pressure-Pnose) and non-invasive respiratory support failure in patients with acute hypoxic respiratory failure of different etiology (including COVID-19).
This is an observational cohort study of the association between patient expectations for functional recovery and quality of life among acute respiratory failure survivors 6 months after hospital discharge.
ECMO is associated with significant costs, risks and requires specialist training and expertise. EXCEL is a novel, high-quality, detailed prospective registry of patients requiring ECMO in Australia and New Zealand. The registry provides information on patient selection, complications, costs and patient reported outcome measures. EXCEL uses the Theoretical Domains Framework to identify evidence-practice gaps and explore barriers and enablers to tailor implementation of evidence
Complications are common during tracheal intubation of critically ill patients. Nearly one in five patients undergoing intubation in the intensive care unit experiences cardiovascular collapse, defined as severe hypotension, vasopressor administration, cardiac arrest or death. Cardiovascular collapse during intubation is associated with increased resource utilization and decreased survival. Administration of 500 mL of intravenous crystalloid solution beginning prior to induction may prevent cardiovascular collapse. The only prior trial examining fluid bolus administration during intubation found no effect on cardiovascular collapse or clinical outcomes overall, but a hypothesis-generating subgroup analysis suggested potential benefit to fluid bolus administration among patients receiving positive pressure ventilation between induction and laryngoscopy. Therefore, we propose a randomized trial comparing fluid bolus administration versus none with regard to cardiovascular collapse among critically adults undergoing intubation with positive pressure ventilation between induction and laryngoscopy.
This cross-over study will compare the asynchrony index between standard manual ventilator settings, optimized manual ventilator settings, and automated ventilator setting in intensive care patients ventilated in non-invasive ventilation with a high asynchrony index. The hypothesis is that both manual optimized ventilator settings and automated ventilator settings are associated with a lower patient-ventilator asynchrony index as compared to manual standard ventilator settings. A randomized cross-over design method will be used. Patient requiring NIV with an asynchrony index over 35% will be included. An esophageal catheter with a balloon will be inserted to monitor esophageal pressure. Patients will be ventilated during 3 periods of 30 min, with 10 minutes of washout in between. Recordings of airway pressure, airway flow, and esophageal pressure will be analyzed by two investigators blinded of the trigger settings. The primary outcome will be the asynchrony index. The secondary outcome will be the ineffective inspiratory effort index, autotrigering index, double triggering index, inspiratory trigger delay, cycling delay, total time spent in asynchrony, patient comfort, and blood gas results.
In this study the investigators will assess the effects of secretion removal on "noninvasive" respiratory mechanics, in deeply sedated mechanically ventilated patients All the mechanically ventilated patients will be submitted to the recording of compliance and resistance at baseline (time0), immediately after the application of 10 cycles alternating 30 cmH20 during expiration and -30 cmH20 during exhalation (time1). Afterward the patients will undergo an additional trail using the so called "percussion" technique, to assess any synergic effect of this procedure (time2)
Respiratory failure patients sometimes receive tracheostomy due to difficulty weaning from mechanical ventilation. Efforts to wean patients with a tracheostomy usually involve the administration of oxygen via High Humidity device. There are two major ways of administering oxygen to patients which include low flow delivered at less than 10Liters per minute (LPM) and high-flow delivered at greater than 10LPM. There is not a currently accepted standard of care practice for how to administer oxygen therapy to these patients. Both Low and High Flow are accepted practices in the US.