View clinical trials related to Respiratory Insufficiency.
Filter by:The long stay in mechanical ventilation can induce several complications, among them respiratory muscle weakness, this has been related to the duration of mechanical ventilation, delay and failure to wean, resulting in longer hospitalization, which reflects in greater care increase in hospital costs. Therefore, of this research will be to compare the effectiveness of early inspiratory muscle training (IMT) versus non-IMT in patients undergoing mechanical ventilation to improve the outcome of mechanical ventilation weaning time.
In this study the investigators will assess the effects of secretion removal on "noninvasive" respiratory mechanics, in deeply sedated mechanically ventilated patients All the mechanically ventilated patients will be submitted to the recording of compliance and resistance at baseline (time0), immediately after the application of 10 cycles alternating 30 cmH20 during expiration and -30 cmH20 during exhalation (time1). Afterward the patients will undergo an additional trail using the so called "percussion" technique, to assess any synergic effect of this procedure (time2)
The purpose of the study is to compare the efficacy of alternating Non Invasive Ventilation NIV and High Flow Oxygen HFO compared to High Flow Oxygen HFO alone on gas exchanges and prognosis in pneumonia-associated acute hypoxemic respiratory failure
In this randomized cross over study the investigators will evaluate the effects on gas exchange and patients' tolerance of a new CO2 non rebreathing devices incorporated in the mask vs the traditional mask COPD patients undergoing NIV for an episode of Acute Hypercapnia Respiratory Failure, will be randomized after at least 12 hour of ventilation to 1 h.trial with the usual full face mask or the same mask with the addition of a new CO2 clearance device
To observe and identify determinants of recovery from intensive care unit-acquired weakness (ICUAW) following a severe cardiorespiratory failure requiring extra-corporeal membrane oxygenation (ECMO). Additionally, to discover the effects of ICUAW on physical function and health-related quality of life (HRQoL) after critical illness. CLEVERER is a clinical observational pilot study.
The purpose of this study is to determine the utility of point-of-care lung ultrasound (POC-LUS) in identifying the etiology of acute respiratory failure in pediatric patients admitted to the pediatric intensive care unit.
This study evaluates the impact of video communication via telemedicine on the quality of emergency care provided to children by paramedic teams supported by a remote physician in a simulated out-of-hospital setting. Half of the paramedic teams will use a video telemedicine platform for communication with a physician, while the other half will use an audio-only platform.
The most common reason for admitting babies and infants to an intensive care unit is due to respiratory distress (breathing difficulties). At present there are a number of different treatments for respiratory distress. These include drug treatments; non-invasive ventilation, where oxygen is given at high pressure to push it through the baby's lungs: ventilation where the baby is put on a breathing machine; or Extracorporeal Membrane Oxygenation (ECMO). This works by taking the blood from the body via a tube (usually) in the baby's neck, redirecting through a machine that oxygenates the blood, then returning it to the baby through another tube. Currently we know little about how different treatments have a different impact on brain perfusion (how much oxygen the brain gets). Using specialist, noninvasive ultrasound and doppler techniques, we are proposing to monitor the effect of these treatments on the brain.
The use of thoracic ultrasound has expanded widely within the las couple of years, and several studies have proved a high diagnostic accuracy for many of the most common causes of respiratory failure and dyspnoea. The ultrasound scan is a bed-side, and dynamic examination, which demands sufficient theoretical and practical knowledge and competence by the operator, but so far, no studies have explored the effect of simulation-based training for gaining adequate competence compared to traditional hands-on training on healthy figurants. The aim of this study is to examine whether TUS training on a simulator is superior to training on healthy figurants. Secondly, to examine whether the choice of hands-on training has an effect on the number of examinations performed by the trainees from baseline to 4 months follow-up.
Protocol-driven ventilator weaning strategies utilizing spontaneous breathing trials (SBT) reportedly result in shorter intubation duration and intensive care unit (ICU) length-of-stay (LOS). Investigators compared respiratory therapy (RT)-driven protocolized ventilator weaning (PW) verses usual care (UC) as it pertains to physiologic respiratory parameters, intubation duration, extubation success/reintubation rates, and ICU LOS. The study was a prospective multicenter randomized controlled trial in 6 ICUs at 6 academic-affiliated hospitals in a resource limited setting. Extubation readiness was determined by the attending physician (UC) or the respiratory therapist (PW) using pre-defined criteria and SBT. Physiologic variables, serial blood gas measurements, and weaning indices were assessed including rapid shallow breathing index (RSBI), negative inspiratory force (NIF), occlusion pressure (P0.1), dynamic and static compliance (Cdyn and Cs).