View clinical trials related to Mechanical Ventilation.
Filter by:Muscle atrophy and diaphragm dysfunction are common with prolonged mechanical ventilation (PMV). Electrical stimulation has been shown to be beneficial in severe chronic heart failure and chronic obstructive pulmonary disease. However, its effect on PMV is unclear. This study examined the effects of transcutaneous electrical diaphragmatic stimulation (TEDS) on respiratory muscle strength and weaning outcomes in patients with PMV.
The purpose of the study is to develop and implement an evidence-based analgesia-sedation algorithm in the pediatric intensive care unit (PICU) using quality improvement and implementation science methodology. The analgesia-sedation protocol will be implemented for patients admitted to the pediatric ICU who require mechanical ventilation for greater than 24 hours. Specifically, we will examine the impact of this implementation on total benzodiazepine usage, ICU length of stay, and ventilator free days, using a pre- and post- algorithm implementation comparative design.
This study evaluates thickening fraction alone and together with other ultrasound parameters of heart and lungs as predictors for extubation outcome
This study evaluates the effect of a transcutaneous electrical stimulation in critically ill patients compared to a sham electrical stimulation to decrease the incidence of diaphragm dysfunction before mechanical ventilation weaning.
The purpose of this study is to investigate the efficacy and safety of a low dose ketamine infusion used in combination of standard of care in critically ill patients to test whether ketamine can help to shorten the time of being in breathing tube and ventilator compared to the standard of care alone.
Background: Delirium is a common acute confusion state in patients in intensive care units (ICUs). It has been linked to poor clinical prognoses (e.g., prolonged ICU stay) in critical patients. Furthermore, it might connect with long-term cognitive dysfunction. Mostly, pharmacological treatments have been frequently prescribed for preventing ICU delirium; however, their side effects might subsequently increase the risks of ICU delirium. Therefore, developing an effective non-pharmacological intervention of preventing delirium among critically mechanical ventilated patients is of clinical relevance. Purposes: To examine the effects of music intervention on reducing delirium in mechanically ventilated critical patients, to determine its beneficial effects on delirium-related outcomes, including sedation time, the duration of mechanical ventilation, and the length of ICU stay, and to compare the change of heart rate variability between groups.
The study Short description of the protocol intended for the lay public. Include a brief statement of the study hypothesis. (Limit: 5000 characters) Neuromuscular blocking agents (NMBAs) are drug capable of inducing a complete paralysis of the muscle. Their use is frequent in the intensive care unit (ICU). Most of the time it is used as a single infusion to facilitate endotracheal intubation, but in the ICU the use of continuous infusion is common in several pathologies: acute distress respiratory syndrome, post-cardiac arrest survivor under hypothermia to prevent shivering, abdominal compartment syndrome, severe traumatic brain injury with uncontrolled intra-cranial pressure and severe asthma among others. A monitoring of the dose of NMBAs is recommended to guide the depth of paralysis and to guide recovery, but in the ICU, the interest of such a monitoring during continuous infusion is unclear and the level of evidence is low. The investigators propose to conduct a prospective multicentric observational study to describe the current practice in the use of NMBAs in mechanically ventilated patients in the ICU. As a primary objective we will describe the prevalence of NMBAs use in the ICU. As a secondary objective, the investigators will investigate the impact of protocol and/or monitoring devices of NMBAs on the dose administered and clinical outcome endpoints.
The researchers hypothesized that the aid of the resuscitator by the technique Air Stacking increase lung volume, promoting increased lung compliance and improvement of the ventilatory pattern. In addition, Air Stacking does not depend on patient collaboration. The objective of this study was to compare the effects of breath stacking and air stacking techniques on respiratory mechanics and ventilatory pattern in patients admitted to the ICU
The aim of this study is to compare the effects of a strategy aimed at increasing alveolar recruitment (high PEEP levels adjusted according to driving pressure and recruitment maneuvers) with that of a strategy aimed at minimizing alveolar distension (low PEEP level without recruitment maneuver) on postoperative respiratory failure and mortality in patients receiving low VT ventilation during emergency abdominal surgery.
The purpose of this single-centered, proof of concept study is to determine whether it is feasible to perform a phrenic nerve block to reduce diaphragm electrical activity and, therefore, inspiratory effort and if such block reduces self-inflicted lung injury on patients under mechanical ventilation on spontaneous breathing. Ten patients will be monitored with electrical impedance tomography, NAVA catheter, and esophageal balloon. Using a nerve stimulator and an ultrasound, we will identify the phrenic nerve on its cervical portion bilaterally and administer perineural low-dose lidocaine. Diaphragm electrical activity, transpulmonary pressure and data on ventilation distribution will be continuously collected. The study will be over once the patient presents the same diaphragm electrical activity and transpulmonary pressure as before the phrenic nerve block.