View clinical trials related to Respiratory Insufficiency.
Filter by:Objectives 1. To characterize mechanical ventilation practices during general anesthesia for surgery 2. To assess the dependence of intra-operative and post-operative pulmonary complications on intra-operative Mechanical Ventilation (MV) settings
Investigation of the differences between the levels of extracellular and intracellular nano-particles in workers exposed to environmental particles during their employment to enhance understanding the process of penetration of the particles to respiratory epithelial cells.
ALS is is characterized by a progressive degeneration of motor neurons, leading to progressive weakness of muscles, including respiratory muscles, the diaphragm. Although specific therapy is lacking, correct respiratory therapy improves quality of life and increases survival. Substituting the failing respiratory muscles by non invasive mechanical ventilatory assistance (NIV) is the current standard of care. Intradiaphragmatic phrenic nerve stimulation is a new treatment and has been the object of a preliminary international proof-of-concept multicenter trial. This trial suggests that the intradiaphragmatic phrenic nerve stimulation slows down the rate of decline of the diaphragm. Our new hypothesis is that phrenic stimulation induces diaphragm conditioning and can delay the need for mechanical ventilation in ALS patients. We will study, during 24 months, 2 groups of 37 patients at the beginning of the respiratory dysfunction, using a intradiaphragmatic phrenic nerve stimulation in one group and a sham stimulation in the other group. Although, all the patients will be implanted, thus, at the end of the study, all the patients will receive effective stimulation.
Variable PSV is a new ventilatory mode which delivered a pressure support "variable" from 0 to 100% variation of the set PSV level.This study aimed to compare the ventilatory behavior, sleep quality and gas exchange between VARIABLE (or Noisy)-PSV and "standard" (or fixed)-PSV during the weaning phase of critically ill patients who required mechanical ventilation.
Partial automation of mechanical ventilation in resuscitation has been available for several years. New modalities are being developed to completely automate ventilation and oxygenation parameters (IntelliVent®. This pilot study compares over a 48h period the safety and efficacy of IntelliVent®, versus a conventional ventilation modality.
The aim of the study is to compare two devices for oxygen therapy, nasal high-flow and Venturi mask, in critically ill patients in the post-extubation period. The hypothesis is that nasal high-flow may be superior to the Venturi mask in terms of oxygenation
A large multicentre, randomized, controlled trial to demonstrate that non invasive ventilation given at an early stage of acute respiratory failure (ARF) outside the intensive care unit (ICU) can prevent the deterioration of ARF and the need for ICU when compared to the best available treatment usually performed in the non-ICU wards.
A single center, observational, prospective study to improve knowledge about non-invasive ventilation, obtaining data about compliance, efficacy, imaging in patients who already receive non-invasive ventilation as standard of care.
The aim of this study is to better discriminate respiratory muscle dysfunction by comparing the measurements of thoracoabdominal motion obtained by an optoelectronic recording and the conventional tests of respiratory muscle strength. The final objective is to better select in the future the patients who need more specific assessment of diaphragmatic function like "maximal transdiaphragmatic pressure" measurement and "phrenic nerve stimulation".
Stress hyperglycemia, a state of abnormal metabolism with supra-normal blood glucose levels, is often seen in critically ill patients. Tight glycemic control (TGC) was originally shown to reduce morbidity and mortality in a landmark randomized clinical trial (RCT) of adult critically ill surgical patients but has since come under intense scrutiny due to conflicting results in recent adult trials. One pediatric RCT has been published to date that demonstrated survival benefit but was complicated by an unacceptably high rate of severe hypoglycemia. The Heart And Lung Failure - Pediatric INsulin Titration (HALF-PINT) trial is a multi-center, randomized clinical treatment trial comparing two ranges of glucose control in hyperglycemic critically ill children with heart and/or lung failure. Both target ranges of glucose control fall within the range of "usual care" for critically ill children managed in pediatric intensive care units. The purpose of the study is to determine the comparative effectiveness of tight glycemic control to a target range of 80-110 mg/dL (TGC-1, 4.4-6.1 mmol/L) vs. a target range of 150-180 mg/dL (TGC-2, 8.3-10.0 mmol/L) on hospital mortality and intensive care unit (ICU) length of stay (LOS) in hyperglycemic critically ill children with cardiovascular and/or respiratory failure. This will be accomplished using an explicit insulin titration algorithm and continuous glucose monitoring to safely achieve these glucose targets. Both groups will receive identical standardized intravenous glucose at an age-appropriate rate in order to provide basal calories and mitigate hypoglycemia. Insulin infusions will be titrated with an explicit algorithm combined with continuous glucose monitoring using a protocol that has been safely implemented in 490 critically ill infants and children.