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Ventilation clinical trials

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NCT ID: NCT01056939 Completed - Ventilation Clinical Trials

Neurally Adjusted Ventilatory Assist (NAVA) in Pediatric Patients

Start date: September 2009
Phase: N/A
Study type: Interventional

The purpose of this study is to find out if NAVA-technology is better in detecting patients own inspiratory efforts during mechanical ventilation than currently used flow-triggering in PRVC (pressure regulated volume controlled) ventilation, and if NAVA gives real benefits for patients or not. The investigators study hypothesis is that NAVA-technology can detect spontaneous inspiration more accurately than currently used methods, and thus will lead to more smooth adaptation to mechanical ventilation in pediatric patients. The investigators expect this to decrease the time of ventilatory support needed.

NCT ID: NCT01053455 Completed - Clinical trials for Respiratory Distress Syndrome

Observational Crossover Study Comparing Oxygenation and Ventilation Using SiPAP Versus CPAP in LBW Infants

Start date: January 2010
Phase: N/A
Study type: Observational

Investigation of effects of SiPAP versus NCPAP on oxygenation and ventilation in LBW infants with respiratory distress. Our hypothesis is that the LBW infants will achieve the same level of oxygenation and improved ventilation when being treated with SiPAP as compared to NCPAP.

NCT ID: NCT00919971 Completed - Ventilation Clinical Trials

Bispectral Index (BIS) on Ventilated Patients in the Prehospital Setting

OHBIS
Start date: June 2009
Phase: N/A
Study type: Observational

To evaluate the effectiveness of use of the bispectral index for monitoring of depth of sedation in ventilated patients during their prehospital management by a physician- staffed EMS. Hypothesis: there is a correlation between BIS and sedation scores.

NCT ID: NCT00779090 Completed - Ventilation Clinical Trials

Functional Residual Capacity (FRC) Guided Alveolar Recruitment Strategy

Start date: October 2007
Phase: Phase 4
Study type: Interventional

In ventilated patients open endotracheal suctioning may lead to alveolar derecruitment, which can be monitored by means of functional residual capacity (FRC) measurements. The investigators hypothesized that a recruitment strategy based on FRC measurements would improve oxygenation and regional ventilation after an open endotracheal suctioning manoeuvre.

NCT ID: NCT00500916 Completed - Ventilation Clinical Trials

Different Techniques for Insertion of the ProSeal Laryngeal Mask Airway in Patients With Difficult Airway

Start date: March 2007
Phase: N/A
Study type: Interventional

The ProSeal laryngeal mask airway (PLMA) is a new laryngeal mask device with a modified cuff to improve the seal and a drain tube to prevent aspiration and gastric insufflation. The manufacturer recommends inserting the PLMA using digital manipulation, like the Classic LMA, or with an introducer tool (IT), like the Intubating LMA. The mean (range) frequency of insertion success at the first attempt for these techniques is 84% (81-100) and 95% (90-100) respectively, with the main causes of insertion difficulty being impaction at the back of the mouth and failure of the distal cuff to reach the hypopharynx. Howarth et al described an insertion technique which overcomes these difficulties by using a gum elastic bougie (GEB) placed in the esophagus to guide the PLMA around the back of the mouth and into its correct position in the hypopharynx. Howarth et al reported no failed uses from 100 consecutive insertions. In the following study, we test the hypothesis that GEB-guided insertion is more frequently successful than the digital and IT techniques in patients with difficult airway.

NCT ID: NCT00298259 Completed - Ventilation Clinical Trials

Trial of Operative Fixation of Fractured Ribs in Patients With Flail Chest

Start date: January 2007
Phase: Phase 2
Study type: Interventional

Background: Fracture of several ribs in more than one place as the result of trauma, leads to paradoxical movement of the chest wall and ventilatory failure. The mainstay of management in these patients has traditionally been analgesia and positive pressure ventilation to splint the chest wall and allow healing of the ribs to begin. However, this management option leads to prolonged intensive care unit (ICU) stay with increasing complication rates as patients remain on a ventilator for prolonged periods. Patients often remain on a ventilator for two to three weeks while waiting for enough rib healing to provide sufficient chest wall stability to allow the patient to take over all their breathing themselves. Until that time, patients are at risk of pneumonia and sepsis and other complications. Long term disabilities which have been reported in these patients include ongoing pain syndromes, inability to return to work, particularly manual type labour and cosmetic chest wall deformities. An alternative treatment strategy is to operatively fix the ribs. By fixing the ribs operatively, the patient no longer requires internal pneumatic stabilization (provided by mechanical ventilation) and can be weaned from the ventilator within days rather than weeks. This can potentially lead to earlier discharge from the intensive care unit, and an avoidance of the multiple complications which arise in the ventilated patient. Rib fixation may also lead to less pain and deformity, improved mobility in the post injury phase and earlier return to work. Hypothesis: that early operative fixation of ribs in patients presenting with flail chest secondary to trauma will result in less mechanical ventilatory requirements, earlier discharge from the intensive care unit and lower rate of complications associated with prolonged mechanical ventilation. This will lead to cost savings in the treatment of these patients.