View clinical trials related to Weaning Failure.
Filter by:The handgrip strength (HGS) will be measured with a digital dynamometer. Three measurements will be taken, whose average of the three measurements will be collected. Muscle weakness will be diagnosed based on previously published ICU acquired weakness (ICU-AW) scores (for males <11 kg and females <7 kg). The overall motor function of the patient will be assessed using the Medical Research Council (MRC) scale. The maximum score of the scale is 60 points, adding the degree of muscle strength of all muscle groups tested. If the patient is unable to have one of the limbs tested, it is assumed that the limb would have the same force as the contralateral limb. A score of 48 points or less is indicative of muscle weakness. Individuals who scored between 48 and 37 points on the MRC scale are considered to have significant weaknesses; those with 36 points or less are classified as severely weak. The HGS and the MRC scale will be compared as predictors of weaning duration of mechanical ventilation
Peripheral perfusion index (PPI) is variable measured by Radical-7 (Masimo) device and reflects the ratio between pulsatile and non-pulsatile portions of peripheral circulation. PPI is characterized by being non-invasive, real time, and simple variable. Impairment of various perfusion indices (such as central venous oxygen saturation and serum lactate) during spontaneous breathing trial (SBT) were previously reported; however, these indices are characterized by being relatively invasive. We hypothesized that impairment of PPI during SBT might be predictive of weaning failure. The aim of this work was to evaluate the possible association between PPI and success of SBT
Orotracheal extubation consists in the removal of the endotracheal tube (ETT) when it is no longer required. This procedure may carry a considerable risk of complications and extubation failure. The literature points out two methods of extubation: the traditional method and the positive pressure method. In a noninferiority clinical trial it was demonstrated that EOT with positive pressure and without endotracheal suction was a safe technique and could be better than traditional extubation. Although prior studies reported better clinical outcomes with the positive pressure extubation technique, its superiority has not been deeply studied yet. Therefore, the objective of our study is to determine whether the positive pressure OTE technique, compared with the traditional OTE technique, reduces the incidence of major postextubation complications (up to 60 minutes) in critically ill adult patients.
Weaning of mechanically ventilated patient is a daily challenge in Intensive Care units. Several indexes have been employed to assess the patient's ability to recover efficient spontaneous breathing. As the diaphragm is the main respiratory muscle, direct measurement of diaphragmatic function as predictors of extubation success or failure have not been extensively evaluated. Ultrasound can easily access diaphragm thickness (tdi) in its zone of apposition during, tdi can represent the contractile activity of the diaphragm and the efficiency of its function.
Weaning is the entire process aimed at liberating patients from mechanical ventilation and endotracheal intubation. Weaning should be considered as early as possible in order to reduce the time spent in invasive mechanical ventilation (iMV), which is associated with morbidity and mortality. To verify if patients are ready to be extubated, a spontaneous breathing trial (SBT) is performed. At this stage some clinical indices and objective parameters are evaluated, such as the breathing pattern, gas exchange, haemodynamic stability and patient's comfort. In case of SBT success, the patient can be extubated. However, a post-extubation respiratory failure can occur within the first 48 hours after extubation, thus making extubation unsuccessful. Some patients considered at risk for post-extubation respiratory failure benefit from the application of non-invasive ventilation (NIV) after extubation. Early characterization of these patients is crucial to improve their clinical outcomes. Electrical Impedance Tomography (EIT) has been introduced in clinical practice as a non-invasive bedside monitoring tool to evaluate the aeration and ventilation of different lung regions. EIT has been proposed to guide ventilator settings adjustments in critically ill patients and to monitor prolonged weaning. However, the potential of EIT to assess SBT and after extubation in a general ICU population has never been evaluated insofar. The present study aims to describe the modifications of lung aeration, ventilation and inhomogeneity occurring during SBT and after extubation in a general population of critically ill patients at the first SBT attempt.
Doxapram is licensed for drug-induced post-anesthesia respiratory depression , arousal effect and return airway protective reflexes caused by barbiturates, volatile anesthetics, nitrous oxide or benzodiazepines over dosage. Value of theophylline to stimulate the respiratory neuronal network has been examined by previous studies and increases the activity of respiratory muscles, including the intercostal , transversus abdominis muscles and the diaphragm, it also has bronchodilator and anti-inflammatory effects.
Lung aeration loss can be measured via lung ultrasound, it is a non-invasive, bed side procedure, which can be performed rapidly and facilitates a dynamic assessment of lung aeration. Aim of the work: is to determine the role of lung ultrasound score as one of the predictors of successful weaning from mechanical ventilation in ICU patients.
Through this study the investigators aim to clarify the relationship between trans-diaphragmatic pressure and various parameters of the diaphragmatic contraction evaluated by ultrasound. Moreover, a lung ultrasound exam will be performed at the end of spontaneous breathing, resistive breathing and maximal inspiratory pressure maneuver (MIP) in order to assess with the use of B-lines for extravascular lung water (EVLW). The following parameters will be studied: esophageal pressure, gastric pressure, diaphragm thickness at peak inspiration (Tdi,pi), diaphragm thickness at end expiration (Tdi,ee), diaphragm thickening (Tdi,pi - Tdi,ee), diaphragm thickness fraction [TFdi=(Tdi,pi - Tdi,ee)/Tdi,ee], diaphragm excursion (Dec), Maximal Inspiratory pressure (M.I.P), Pressure-Time product of the esophageal pressure (PΤPes),Tension Time Diaphragm Index (T.T.Di) and the rapid shallow breathing index (R.S.B.I.). These measurements will be made in two phases.Firstly, during the spontaneous breathing trial and secondly during spontaneous breathing through an airway of reduced diameter.Furthermore, during the M.I.P. test the aforementioned ultrasound parameters will be measured. The aim of this study is to discover new means of a successful prediction of weaning in the first 48 hours following extubation.
Patients with severe brain injuries, such as ischemic stroke and intracranial hemorrhage, frequently require mechanical ventilation. Weaning of stroke patients is complicated by impaired consciousness and respiratory drive. Higher rates of weaning failure and delayed extubation (≥ 48h) lead to ventilator associated pneumonia, higher mortality and necessity of tracheostomy. Therefore, improving the weaning of stroke patients from mechanical ventilation is warranted to prevent ventilator-associated complications and eventually improve clinical outcomes. This single-center, randomized, clinical trial aims at demonstrating that voices of patients' relatives support weaning from mechanical ventilation and reduce weaning failure in brain-injured patients.
Evaluate the evolution of diaphragmatic muscle effort in cardiogenic shock in ECMO patient with ultrasounds during the first weaning attempt in intensive care patients.