View clinical trials related to Extubation.
Filter by:Orotracheal extubation in resuscitation is a situation in which there is an elevated risk of inhalation. In resuscitation, enteral nutrition that is administered in a continuous flow is likely to accumulate in the stomach. Gastric motility in resuscitation patients may be impaired for many reasons: - Iatrogenic: Catecholamines, sedatives and opioids slow down the digestive system and decrease the tone of the lower esophageal sphincter - Shock, polytrauma, sepsis, pain or discomfort, or mechanical ventilation again create an alteration in gastric emptying. Enteral nutrition is commonly discontinued to manage extubation, but it is not systematic. Discontinuation leads to a decrease in caloric intake. Gastric ultrasound is a minimally invasive, reliable and promising means of monitoring that allows the stomach to be visualized directly. Studies on healthy subjects and in anaesthesia have made it possible to validate ultrasound in the context of the study of gastric content using both quantitative (including measurement of the antral area) and qualitative criteria. Measurement of the antral area was also studied in resuscitation. Antral area and gastric volume are closely related, with a correlation coefficient ranging from 0.6 to 0.91. Identifying patients at risk of inhalation by ultrasound could allow individualized enteral nutrition management prior to extubation in the resuscitation unit, and thus optimize nutritional management. The objective of the study is to identify factors associated with greated antral area in patients hospitalized in the intensive care unit. The hypothesis is that continued enteral nutrition before extubation is associated with increased gastric volume as measured by ultrasound.
The primary aim of this study is to compare reintubation rate when using standard medical therapy (SMT) versus a monitoring tool, Integrated Pulmonary Index (IPI), to alert clinicians of the patient's respiratory status and need for therapy after planned extubation.
The main objective will be to compare the number of ventilator-free days within the 28 days following the first spontaneous breathing trial between strategies of extubation performing spontaneous breathing trials with T-piece trials or with Pressure-Support trials. To do that, the study director proposed to conduct a prospective multicenter randomized controlled open-label trial comparing these 2 strategies of weaning in patients at high-risk of extubation failure in the Intensive Care Unit. Patients included will be randomized before performing the first spontaneous breathing trial and will be assigned to one of the following two groups according to the weaning strategy: T-piece trial group or Pressure-Support trial group.
This study is aimed at evaluating patient work of breathing and tidal volumes with three methods of oxygenation: standard oxygen, high-flow oxygen therapy and non-invasive ventilation.
This clinical trial is aimed to show a spontaneous breathing trial using high flow oxygen therapy may lower weaning failure rate and reintubation rate than using T-piece.
The aim of prospective clinic study is to compare the tolerance and effectivity of Cook tube changing catheter and staged extubation set following laparoscopic morbid obesity surgery. The use of step extubation in difficult extubation is life-saving. The use of cascade extubation set in morbid obese and especially bariatric surgery patients is also life-saving.
Little is known about the procedure of extubation of patients admitted in Intensive Care Units (ICU). In particular, effects of tracheal suction during extubation have never been evaluated. Tracheal suction induces alveolar derecruitment in sedated patients under mechanical ventilation and is a major source of pain. The aim of this study was to evaluate the impact of tracheal suction during the extubation procedure of critically ill patients on the end-expiratory lung volume.
Ultrasonography is a commonly used diagnostic and procedural adjunctive modality in intensive care. Weaning of neurosurgical patients off ventilatory support is a critical procedure, fraught with risks of hypoxia and hypercapnia. Weaning involves sequential reduction of ventilatory support and regular assessments for extubation followed by spontaneous breathing trials. In this study, we evaluate parameters of ultrasonographic evaluation of lung aeration and cardiac function in neurosurgical patients undergoing weaning and their ability to predict successful weaning and extubation.
The Rapid Shallow Breathing Index (RSBI) is the ratio between respiratory rate (RR) and tidal volume (VT). It is routinely used to predict mechanical ventilation weaning outcome in ICU patients. However RSBI doesn't reflect the muscular contribution of diaphragm or accessory muscles in generating tidal volume. Actually, diaphragmatic dysfunction can even delay weaning process, because accessory muscles are more fatigable than the diaphragm. Hence, the investigators hypothesized that diaphragmatic displacement (DD) could be associated with RSBI in a new index named Rapid Shallow Diaphragmatic Index (RSDI) such as: RSDI = RSBI/DD. The aim of this study is to compare the ability of the RSDI versus the traditional RSBI to predict weaning success in ready-to-wean patients.
Data analysis of routinely applied extubation procedures on the ICU: i.e. extubation with 100% O2 vs. 35% O2 with/without suctioning.