View clinical trials related to Acute Respiratory Failure.
Filter by:Acute respiratory failure is a common entity in intensive care units nowadays and is associated with significant morbidity and mortality, thus representing a major health problem. Most of the published epidemiological studies on this condition were performed when modern ventilatory strategies and non-invasive ventilation were not available. Therefore, an actual evaluation on the incidence and outcomes of this syndrome is mandatory. We will perform an observational prospective study of patients admitted with acute respiratory insufficiency in several ICUs in Brazil.
The main objective of this study is to evaluate the efficiency of the oxygen therapy delivery system Optiflow® compared to 2 others standard oxygen therapy delivery systems (Ospal®, non invasive ventilation).12 immunocompetent patients will compare the successive use of oxygen therapy delivery systems Optiflow®/Ospal® and 12 immunodeficient patients will compare the successive use of systems Optiflow®/Non invasive ventilation.
In critically ill pediatric patients with Acute Respiratory Failure (ARF), Noninvasive Continuous Positive Airway Pressure (NCPAP) is applied to avoid intubation and all related complications such as tracheal injury and predisposition to nosocomial pulmonary infections. The choice of the interface is one of the crucial issues affecting treatment outcome in pediatric age and in particular in preschool children in whom intolerance frequently compromise noninvasive respiratory treatment. NCPAP is applied either through nasal or facial tight fitting masks and the most important principle in guiding the selection of an interface is that it should fit comfortably. However, while nasal mask can leak gas when the infant opens his/her mouth, facial mask can cause significant gastric distension and vomiting, with risk of aspirating gastric contents. Moreover, complications such as air leaks, skin irritation on the bridge of the nose, and discomfort reported with nasal or facial masks in children frequently lead to interruption of the respiratory treatment. Thus, improving the interface between the patient and the ventilator would be expected to facilitate longer and more effective application of NCPAP. A new small helmet specifically designed for young infants has been recently introduced to administer NCPAP. In a recent short term crossover physiological randomized controlled trial, the investigators found that NCPAP by helmet was associated with enhanced feasibility, less need of sedation and prolonged application time (see references below). The purpose of this prospective randomized multicenter study is to compare the efficacy and feasibility of NCPAP delivered either by helmet or by facial mask to treat acute respiratory failure in infants admitted to Pediatric Intensive Care Unit (PICU).
The specific aim of the proposed study is to conduct a pilot study involving 160 critically-ill lean and obese patients enrolled at 11 sites in Canada, the United States of America, Belgium and France in order to: Specific Aims - Confirm that we can achieve a clinically significant difference in calorie and protein intake between the two intervention groups. - Estimate recruitment rate i.e. number of eligible and enrolled patients per month per site. - Evaluate the safety, tolerance, and logistics around providing supplemental PN in the study population in the context of a multicenter trial, e.g. - To ensure adequate glycemic control in both groups. - To ensure that the other metabolic consequences of the feeding strategies are minimized. - To establish adequate compliance with study protocols and completion of case report forms A secondary aim of this pilot study will be: • To explore the effect of differential effects of calorie and protein delivery on muscle and mass function.
A number of techniques have been recommended for the prevention of ventilator acquired pneumonia (VAP). These techniques - such as patient positioning, continuous sub-glottic suction of the secretions, selective decontamination of the digestive tract etc… - aim at prevent the inhalation of oro-pharyngeal contaminated secretions around the cuff of the tracheal tube used for connecting the patient to the machine. Their efficacy has been regularly challenged and they are still unable to suppress totally the occurrence of VAP. The cuff of the tracheal tube used for long-term MV in the ICU is most often a low pressure high volume polyvinyl chloride (PVC) cuff in order to adhere to a large surface of the tracheal wall without inducing ischemic lesions. Recent advances allowed industrial companies to provide us with 1) polyurethane cuffs and 2) cuffs with a conic shape, both potentially offering a better tightness against inhalation at least in VITRO and in animal models. The effect on the reduction of VAP incidence has been suggested by several pilot series. The aim of the present project is to assess the efficacy of four types of cuffs (PVC with a conic or a cylinder shape and polyurethane with a conic or a cylinder shape) to prevent tracheal colonisation. We shall measure both oro-pharyngeal and tracheal colonisation during the hours and days following intubation. This will be done in 600 ICU patients of four university affiliated centres from France and Tunisia divided in 64 cluster randomized groups. The results of this research will confirm (or not) the rationale to perform a larger study designed specifically to address the impact on VAP.
The objective of this study is to obtain a better understanding of the spectrum of use of mechanical ventilation in intensive care units: 1. Main analysis: To know the all-cause mortality rate in mechanically ventilated patients 2. Secondary analyses: - To know the current status of mechanical ventilation in the intensive care unit and determine the number and percentage of patients who are admitted to an intensive care unit and require mechanical ventilation. - To compare the results with prior data collected in previous observational studies (1998 and 2004) - Non-invasive positive pressure ventilation - Weaning - Use of adjuvant therapies as steroids or selective digestive decontamination - Sedation including prevalence of delirium in mechanically ventilated patients - Prediction of the duration of mechanical ventilation - Other
Acute respiratory failure requiring support with mechanical ventilation occurs with an incidence of 77-100 per 100,000 person-years and accounts for half of all patients admitted to the intensive care unit. Major causes of acute respiratory failure include pneumonia, asthma, emphysema, and acute lung injury. These causes of acute respiratory failure may result in partial lung collapse (atelectasis), and airway narrowing (bronchoconstriction)that result in decreased oxygen levels requiring support with the ventilator. The prolonged inactivity in the supine position associated with mechanical ventilation can further result in atelectasis requiring increased oxygen supplementation through the ventilator. The current standard of care in acute respiratory failure is a strategy of mechanical ventilation using a single lung volume delivered repeatedly. However, the current standard mechanical ventilation strategy is not consistent with the variability in respiration of healthy humans and has been shown to contribute to increased lung injury in some studies. The mortality associated with acute respiratory failure is high, 30-40%. Thus, improvements in mechanical ventilation strategies that improve oxygen levels and potentially decrease further lung injury delivered by the ventilator are warranted. Recent studies by BU Professor Bela Suki and others in humans and animals with acute lung injury, bronchoconstriction, and atelectasis have shown that varying the lung volumes delivered by a ventilator significantly decreases biomarkers of lung injury, improves lung mechanics, and increases oxygenation when compared to identical mean volumes of conventional, monotonous low lung volume ventilation. Therefore, we propose a first-in-human, Phase I study to evaluate the safety of this novel mode of ventilation, Variable Ventilation, during acute respiratory failure
Acute respiratory failure is a heterogeneous disorder that results in more than 300,000 Americans requiring admission to an intensive care unit for invasive mechanical ventilatory support each year. Though acute respiratory failure is a pulmonary disorder, patients who survive their hospitalization are not limited by respiratory symptoms after discharge. Rather persistent neuromuscular weakness is the primary disorder that adversely alters their quality of life and ability to function on a daily basis. In this application we plan to conduct a randomized clinical trial called the Do It Now study (Diagnosis and Treatment of Neuromuscular Weakness) to determine the effectiveness of an intensive physical therapy program for patients recovering from acute respiratory failure. This trial will establish the efficacy of the physical therapy programs that is currently performed for patients with acute respiratory failure in a non-evidence based manner across the United States.
Acute Respiratory Failure (ARF) requiring mechanical ventilation affects 1.1 million of the 4.4 million people admitted to United States Intensive Care Units (ICU) every year. Patients with ARF have an average ICU and hospital length of stay (LOS) of 8 and 15 days, respectively, with median hospital costs greater than $30,000 United States. Patients with ARF experience deconditioning, muscle weakness, joint contractures, dyspnea, depression, and reduced health-related quality of life, all of which may contribute to prolonged hospitalization and increased costs. Mechanistically, it is understood that patients with ARF demonstrate acute inflammation which may contribute to the above cited problems. While the investigators' research and that of others has shown that rehabilitation therapy can increase functional outcomes while lowering biomarkers of inflammation in the frail aged and other clinical populations, it is not known whether such rehabilitation therapy can result in improved functional capacity and functional performance and reduce inflammation in ARF patients. There is previous evidence for the feasibility and safety of rehabilitation therapy in ARF patients. Therefore, the investigators propose a two-arm, randomized trial in 326 patients with ARF to compare Standardized Rehabilitation Therapy initiated in the ICU and administered throughout the hospitalization versus usual care (control). Standardized Rehabilitation Therapy will consist of: passive range of motion, physical therapy and progressive resistance exercise (strength training). The regimen will be administered 7 days/week by a Mobility Team consisting of a critical care nurse, physical therapist and nursing assistant. The investigators will determine whether standardized rehabilitation therapy will reduce hospital LOS, improve functional capacity and performance, improve quality of life, reduce inflammation and reduce hospital costs as compared to usual care. This study's primary objective is to determine whether standardized rehabilitation therapy will decrease hospital length of stay. Hypothesis: Compared to usual care, standardized rehabilitation therapy will reduce hospital length of stay for patients with Acute Respiratory Failure.
The study is aimed to assess the possible benefit of non-positive pressure mechanical support in front of conventional ventilation in patients admitted to the intensive care unit (ICU) because of pure hypoxemic respiratory failure.