View clinical trials related to Respiratory Failure.
Filter by:Multicenter, cluster randomized, controlled, open-label trial to assess if AnapnoGuard System can minimize tracheal microaspiration and the risk of ventilator-associated pneumonia when compared to standard treatment
In patients with acute hypoxemic respiratory failure (AHRF), High Flow Nasal Therapy (HFNT) improves oxygenation, tolerance, and decreases work of breathing as compared to standard oxygen therapy by facemask. The hypothesis is that this flow challenge (ROX index variation from 30 to 60L/min) could be used as a test for assessing changes in lung aeration, analyzed by the variation in end expiratory lung volume (ΔEELV), in patients treated with HFNC. It may allow to personalize the flow settings during HFNC. In this sense, an increase in EELV will be observed with higher flows in responders and, therefore, these participants may benefit from increasing the flow. In contrast, to increase the flow in non-responders (no significant increase in EELV with higher flows) increase the risk of patient self-inflicted lung injury (P-SILI).
Investigation Device: EZVent Ventilator System is designed for respiratory support in hospitalized mechanical ventilated patients. The Ventilator is designed to be used for adults patients. It is designed to be a stationary product suitable for service in hospitals, critical care situations to provide continuous positive pressure respiratory support to the patient. The ventilator met EDA, ISO 80601-2-12 requirements on essential performance of critical care ventilator and other applicable international standards. Study Title: Open-labeled, non-randomized, self-controlled study to evaluate the safety and performance of EZVent in hospitalized mechanically ventilated patients. Investigational Device EZVent Ventilator System. Purpose: Evaluation of the safety and performance of EZVent in hospitalized mechanically ventilated patients. Objectives: Evaluation of the safety and performance of EZVent through monitoring the vital signs and arterial blood gases (ABG) in comparison to a commercial ventilator.
A retrospective study to evaluate the predictability of abnormal arterial blood gas measurements through novel observations of continuous trends in electronically measured respiratory in a mixed cohort of respiratory compromised patients.
The TONES trial aims to evaluate the neuroventilatory efficiency (NVE = tidal volume / peak voltage of diaphragm contraction) measured during a zero-assist manoeuvre (ZAM, i.e. with PEEP but without pressure support). This novel parameter, NVE-ZAM, will be studied in a blocked, crossover, repeated measures design. Possible confounders, such as activity of respiratory muscles other than the diaphragm, are included. The investigators hypothesized that - the NVE during a zero-assist maneuver has a low variability and high repeatability at the same level of PEEP (within subjects, within blocks) - NVE-ZAM trends differ between participants (between subjects, within blocks) and between PEEP levels (within subjects, between blocks) The primary aim is to study the variability and repeatability of the NVE-ZAM within subjects and within blocks. Additionally, the effect of PEEP, muscle fatigue and recruitment of the accessory and expiratory muscles of respiration on the NVE-ZAM will be studied in an exploratory analysis (in multiple combinations of within and between subjects and/or blocks).
The purpose of this study is to investigate whether protocolized vasopressor use for patients with normal blood pressure undergoing rapid sequence intubation improves hemodynamic parameters and mitigates adverse events. The hypothesis is that use of vasopressors during Rapid Sequence Intubation will prevent substantial decreases in blood pressure when compared to normal intravenous fluids.
The purpose of this study is to assess the efficacy of using intelligent volume assured pressure support (iVAPS-AE) versus spontaneous timed (ST) modes of non-invasive ventilation (NIV) in patients diagnosed with amyotrophic lateral sclerosis (ALS). The investigators believe that the use of iVAPS-AE mode NIV over a 90 day period will produce NIV compliance data and health-related quality of life (HRQOL) scores that are equivalent or no worse compared to ST mode NIV.
L-Carnitine supplementation has been shown to boost muscular performance in several studies. In hemodialysis patients with muscular weakness, fatigue, or cramps/aches, after L-carnitine treatment, about two-thirds of patients had at least some improvement in muscular symptoms . L-Carnitine was also found to improve the left ventricular ejection fraction (LVEF) in hemodialysis patients with cardiac morbidity who had significantly reduced LVEF in echocardiography before supplementation. Moreover, L-Carnitine has been shown to improve muscular function and exercise performance in athletes in several studies
NOTACS aims to determine if prophylactic use of high-flow nasal therapy (for a minimum of 16 hours after tracheal extubation, inclusive of up to one hour off randomised therapy for transfers around the hospital and/or physio mobilisation) increases days at home in the first 90 days after surgery, for adult patients undergoing cardiac surgery who are at high risk of postoperative pulmonary complications. The study also incorporates a health economic analysis to estimate the incremental cost-effectiveness and cost-utility of HFNT versus standard oxygen therapy at 90 days, from the view-point of the public sector, NHS and patients.
Weaning from invasive mechanical ventilation (MV) constitutes a fundamental procedure in intensive care, covering up to 50% of time spent on ventilation (1). Endotracheal tube (ETT) removal might be an important but delicate step in intensive care setting. Failure and subsequent need for re-intubation can occur in up to 20% of cases leading to a significant increase in mortality rates (24%), longer hospital stay and prolonged need for ventilation. Comorbidities such as obesity, COPD and cardiac related diseases might further increase this risk reaching up to 60% of failure in extubation. In this scenario, accurate predictors of weaning failure are far welcomed. The recurrence of respiratory failure after extubation might considerably raise rates of failure, probably due to increased work of breathing in patients after ETT removal. Most recent guidelines on the use of non-invasive ventilation (NIV) suggest using NIV after ETT removal in subjects with high risk of failure. NIV could contribute to reduce work of breathing hence preventing the onset of respiratory failure after extubation. Therefore, measuring inspiratory effort and its variation in weaned patients might help in identifying patients with significant risk of failing extubation. Esophageal pressure swings (DeltaPES) can be measured through a nasogastric tube with a pressure transducer located in the inferior part of the esophagus. DeltaPES is an extremely precise and accurate method to quantify inspiratory effort, however its use in daily clinical practice is limited due to the invasive nature of the maneuver, elevated costs and need for considerable clinical training of operators. Physiological studies have shown a correlation between nasal pressure measured at nostril entrance and esophageal pressure (which in turn is a measure of respiratory effort . Therefore, measuring nasal pressure could represent a method to quantify inspiratory effort non-invasively, proving to be useful in daily clinical practice.