Loading clinical trials...
Loading clinical trials...
Showing 1-14 of 14 trials
NCT05446272
DIVA is a pragmatic randomized clinical trial (RCT) to determine: among (P) preterm infants born 23 0/7-28 6/7 weeks gestation undergoing extubation from mechanical ventilation, whether (I) Non-invasive neurally adjusted ventilatory assist (NIV-NAVA) (C) compared with Non-synchronized nasal intermittent positive pressure ventilation (NS-NIPPV), will reduce the incidence of (O) extubation failure within (T) 5 days (120 hours) of extubation.
NCT07067502
subjects on mechanical ventilator who are about to be extubated to Non invasive ventilation because the physician thinks they are high risk for failure will be approached and consented for our study. Once randomized they will either be on the standard of care Non invasive arm or the intervention arm which would mean they are placed on the Biphasic cuirass ventilation.
NCT07324460
This is a randomized, open, multicenter, pragmatic, adaptive clinical trial with intention-to-treat analysis. The study will compare two weaning strategies from mechanical ventilation in critically ill patients admitted to intensive care units, with more than 72 hours of mechanical ventilation and with a successful spontaneous breathing trial on pressure support. Immediately after a successful spontaneous breathing trial, eligible patients will be randomized into 2 groups that will be treated according to one of the following interventions:1) One-hour positive pressure ventilation: as soon as the success of the spontaneous breathing trial is confirmed, the patient is submitted to mechanical ventilation for 1 hour using the previous ventilatory parameters and, afterwards, extubated.2) Immediate extubation: the patient is extubated immediately after the success of the spontaneous breathing trial.
NCT07098611
Liberation from mechanical ventilation involves three steps: weaning, readiness assessment, and extubation. Readiness is determined using clinical criteria such as improvement of the underlying condition, hemodynamic stability, and adequate respiratory effort. Successful extubation is defined as not requiring invasive support within 48 hours. Due to the complexity of ICU patients, various clinical parameters and multi-component scores have been developed to predict extubation success. This study aims to develop and evaluate a multi-component score, the Readiness for EXtubation score (REXs), to predict extubation readiness in ICU patients under invasive mechanical ventilation.
NCT05918575
Around 20% of the obese patients with higher body mass index (BMI) who are taken off the breathing tube and breathing machine (ventilator) end up needing it back to support breathing. The re-application of breathing tube is associated with poor outcomes, including high risk of pneumonia, longer hospital stays, and death. The purpose of this study is to assess if prophylactic use of noninvasive breathing support after removing the breathing tube lowers the chance of needing the breathing tube again.
NCT07038291
Extubation is the final stage after patients undergo weaning procedure from mechanical ventilation in the ICU. Extubation failure followed by reintubation is associated with worse patient outcomes, including prolonged length of stay, increased risk of pulmonary infections, need for tracheostomy, higher healthcare costs, and increased mortality. Careful evaluation of various risk factors for extubation failure must be considered, therefore the extubation readiness guideline or checklist is essential before making the decision to extubate. This study aimed to identify factors associated with extubation failure in Kanigara ICU patients. This was a case-control study using secondary data from medical records of ICU patients who underwent extubation between January 2021 until August 2024. Variables analyzed included Glasgow Coma Scale (GCS) score, Arterial Blood Gas (ABG) results, hemodynamics, ventilator settings, airway protection ability, fluid balance, and airway-related problems. Bivariate and multivariate using logistic regression analyses were conducted to identify factors associated with extubation failure.
NCT06557941
Up to 20% of MV patients experience EF \[10\]. EF is defined as the need to reinsert the endotracheal tube to resume MV in patients extubated for less than 48 hours. It has high rates of morbidity and mortality, prolongs the duration of MV and thus causes a longer stay in the PICU and risk of complications such as the need for tracheostomy, the incidence of pneumonia and pulmonary damage, and finally, costs increase as well and death \[10, 11\] .
NCT05944588
The use of mechanical ventilation in intensive care concerns the majority of patients, most often to compensate for respiratory failure, but for other organic failures requiring therapeutic artificial coma. During the sedation phase, many elements of management can modify the patient's clinical parameters. Indeed, mechanical ventilation with a positive expiratory pressure mainly modifies the venous return by decreasing it, and therefore many modifications of the hemodynamic parameters result from it. In addition, other elements of management, such as iterative fillings, vasopressor and inotropic amines, as well as sedative drugs not only modify the hemodynamics, but also the ventilatory mechanics. Extubate a patient in intensive care is always complex, because the assessment must be multifactorial and this is not without risk for the patient. Many complications can arise if it ends in failure. They can be linked to mechanical causes (laryngeal oedema, tracheal stenosis, pneumothorax...) but also to non-mechanical causes, such as inappropriate sedation, overload, neuromuscular deficit. Extubation is primarily based on the patient's level of consciousness, as well as the successful progress of the patient during a ventilatory weaning trial, carried out after a return to spontaneous ventilation with inspiratory support. This ventilatory weaning test precedes extubation and is performed for any patient intubated for more than 48 hours. Since the 1950s, ultrasounds have become more and more important in the field of medical diagnosis and therapeutic decision support, even more recently in the world of intensive care. The contribution of echocardiography in a patient in the process of extubation has already been evaluated and has proven to be a valuable aid. For nearly 20 years, the use of pulmonary ultrasound has emerged and allows rapid diagnosis at the patient's bedside of mechanical anomalies such as gaseous or liquid effusion, an anomaly in the compliance of the pulmonary parenchyma, possibly in link with diaphragmatic dysfunction or even signs in favor of a picture of pulmonary overload, thanks to ultrasound artefacts such as B lines or even alveolar derecruitment by atelectasis. The role of pulmonary ultrasound in helping to decide on extubation remains poorly established, we propose an observational study evaluating the predictive value of chest ultrasound in pre-extubation with the aim of determining if ultrasound signs are able to predict a potential failure of this extubation. Indeed, the risks of extubation failure being much higher than those of ventilatory weaning failure, it seems necessary to focus our research on this component. This study must include patients in spontaneous mechanical invasive ventilation with pressure support, presenting the criteria for a ventilatory weaning test in view of a potential extubation.
NCT05550259
Reintubation after failed extubation would be associated with increased mortality. Therefore, extubation failure remains a major concern in ICU. Few randomized controlled studies have assessed the benefit for a systematic respiratory support (noninvasive ventilation or high flow nasal cannula) applied at the time of extubation to reduce reintubation rates in patients at high and low risk for reintubation. In addition, these studies reported discordant results. Therefore, there are some concerns regarding effectiveness and systematic uptake of a respiratory support after extubation into usual practice.
NCT05487573
Extubation failure (EF) is independently associated with excess mortality of critically ill patients. To avoid EF, critically ill patients being weaned from invasive mechanical ventilation (IMV) perform spontaneous breathing trial (SBT), which is the litmus test for determining the ability to breathe without a ventilator. Thus, the performance of the SBT during weaning from IMV to predict successful extubation is crucial. The investigators hypothesize that patients with EF increase arterial lactate concentration during SBT due to increased work of breathing and hypoxia. The aim of this study is to evaluate the performance of variation in arterial lactate concentration before and after SBT in predicting successful extubation in critically ill patients.
NCT05081973
Invasive mechanical ventilation is a life-saving treatment in critically ill newborns with respiratory failure. However, continuing this treatment for a long time may have negative consequences, especially bronchopulmonary dysplasia (BPD) secondary to mechanotrauma. For this reason, it is essential to terminate the mechanical ventilation treatment at the most appropriate time. About half of the extremely preterm babies may fail extubation even if the clinical criteria traditionally used for extubation are met. Unsuccessful extubation is associated with increased intraventricular bleeding, death, BPD, death or BPD, longer duration of ventilator support. When respiratory failure and lung pathologies of extremely preterm babies begin to improve, the target for mechanical ventilation should be early and successful extubation. Currently, the decision to extubate a preterm baby is primarily based on clinical judgment. Only a few studies that showed the low predictive value and limited utility using different measures have evaluated readiness for extubation. Lung ultrasonography (USG) is a noninvasive bedside technique that has been found useful for predicting the success of weaning from the ventilator in adults; however, very little data are available in neonates. In a recently published study, it was proposed an extubation readiness estimation tool based on clinical and demographic data of preterm babies who were attempted elective extubation. The researchers' hypothesis is that the use of a model based on extubation success scoring and lung USG scoring before extubation reduces the failure of the first extubation attempt in very low birth weight infants. The aim of the study is to evaluate the value of using an integrated model based on pre-extubation "extubation readiness predictor" and lung USG scoring to predict extubation success in preterm babies undergoing invasive mechanical ventilation.
NCT02911506
The aim of the study is to evaluate the impact of sleep quality on extubation failure rate in intensive care unit patients at high risk.
NCT03361683
Patients intubated due to acute respiratory failure have a high risk of infectious complications, airway injuries and multiple organic failure, so performing a successful extubation from mechanical ventilation is key. Between 10 and 20% of patients develop extubation failure, which is related to an increased in-hospital death rate, infections, higher costs and longer hospital stays. High-flow nasal oxygen therapy delivers heated, humidified air at flows up to 60L/min, and an oxygen concentration close to 100%, providing a fresh air reservoir at the naseo-pharyngeal level, evening out the peak inspiratory flow rate of the patient, improving air conductance, promoting secretion management, increasing end-expiratory lung volume, and applying a positive end-expiratory pressure. Such effects result in decreased breathing work, dyspnea relief, improved use tolerance, increased oxygenation, and lower fraction of inspired oxygen in patients with hypoxemic respiratory failure. High-flow oxygen therapy has recently been described to decrease extubation failure in a group of patients classified with low failure risk, in comparison to Venturi mask, and it was not inferior to non-invasive mechanical ventilation in high risk patients. However, it is worth pointing out that a large percentage of the patients included in such studies did not develop acute respiratory failure primarily. Given the beneficial effects described above, the investigators hypothesize that high-flow nasal oxygen therapy decreases the risk of extubation failure in a group of patients that required invasive mechanical ventilation due to primary acute hypoxemic respiratory failure.
NCT02887846
Purpose is to show that HHHFNC method is as effective and safe as nCPAPand even more comfortable than it as non-invasive respiratory support for the prevention of extubation failure in preterm with gestational age of 26-32 weeks. Patients requiring mechanical ventilation for at least 6 hours on the first 7 postnatal days will be included in the study.When patients were Fi O2 \< 0,40, Pa CO2 \< 65 mmHg, pH\> 7.20, MAP (mean airway pressure) \<7 cm H2O, they will be extubated if statistically stable.Oxygen-air mixture of 4-6 l / min flow rate will be set in HHHFNC group, and pressure will be set to 5-8 cm H2O in NCPAP group. When flow is 2 l / min, FiO2 is\<0.30 at 24 hours and above, free oxygen will be introduced. In NCPAP group, when pressure is 5 cm H2O and FiO2 \< 0.30 at 24 hours and above, free oxygen will be introduced.