Anaesthesia and intensive care
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Anaesth Intensive Care · Jan 2010
Patient- and operator-related factors associated with successful Glidescope intubations: a prospective observational study in 742 patients.
The Glidescope Video Laryngoscope (Glidescope, Verathon Medical, Bothell, WA, U. S. A.) is a relatively new intubating device. ⋯ With regard to the level of anaesthesia training, only medical students were more likely to fail with the Glidescope. Success was not associated with previous experience in direct laryngoscopy. The lack of association with direct laryngoscopy experience and level of anaesthesia training (beyond student level) suggests that expertise with traditional airway tools is not necessary to become proficient with the Glidescope.
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Anaesth Intensive Care · Jan 2010
The effect of dexmedetomidine on agitation during weaning of mechanical ventilation in critically ill patients.
Ventilated patients receiving opioids and/or benzodiazepines are at high risk of developing agitation, particularly upon weaning towards extubation. This is often associated with an increased intubation time and length of stay in the intensive care unit and may cause long-term morbidity. Anxiety, fear and agitation are amongst the most common non-pulmonary causes of failure to liberate from mechanical ventilation. ⋯ Excluding unrelated clinical deterioration, 22 episodes (73.3%) achieved successful weaning from ventilation with a median (interquartile range) ventilation time of 70 (28 to 96) hours after dexmedetomidine infusion. Dexmedetomidine achieved rapid resolution of agitation and facilitated ventilatory weaning after failure of conventional therapy. Its role as first-line therapy in ventilated, agitated patients warrants further investigation.
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Anaesth Intensive Care · Jan 2010
Monitoring of extubated patients: are routine arterial blood gas measurements useful and how long should patients be monitored in the intensive care unit?
Restitution of respiratory support, which may include continuous positive airway pressure, non-invasive ventilation or reintubation, is needed in some patients post-extubation. We aimed to investigate whether serial arterial blood gas measurements done in the post-extubation period would help to identify such patients and to delineate the optimal post-extubation duration for close monitoring. We retrospectively analysed 115 consecutive adult patients who were extubated following successful spontaneous breathing trials in the medical intensive care unit, excluding patients who were extubated to immediate non-invasive ventilation. ⋯ Performing serial arterial blood gas measurements following extubation did not improve the detection rate or allow earlier detection of patient deterioration. Among the patients with pneumonia, restitution of respiratory support was required within 24 hours of extubation for 16 patients (80%) and after more than 49 hours for four patients. Serial arterial blood gas measurements at one and three hours after a planned extubation are not useful and patients originally intubated for pneumonia should be monitored post-extubation for at least 24 hours in the intensive care unit.