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Cervical immobilization with manual in-line stabilization (MILS) is recommended to prevent further neurologic injury during intubation in patients with known or suspected cervical spine injuries. However, MILS is associated with increased rates of failed tracheal intubation using direct laryngoscopy, because the restriction of neck flexion and head extension may prevent adequate alignment of the oral, pharyngeal, and tracheal axes, hence adversely affecting laryngeal visualization during direct laryngoscopy.
The GlideScope® (Verathon, Bothell, WA, USA) is a videolaryngoscope with an hyer-angulated blade (HA-VL), which is characterized by a sharper curvature than the Macintosh blade. The large curvature of the HA-VL allows seeing 'round the corner', which can provide indirect laryngeal visualization even with restricted neck movements . However, the HA-VL also prevents direct visualization of larynx, which make it difficult to guide the tracheal tube (TT) towards the glottis despite obtaining a good laryngeal view. Thus, the good view of the laryngeal inlet provided by videolaryngoscopes does not always lead to an easy or successful intubation. There are numerous reports in the literature of devices managing to achieve an improvement in view but still being unable to pass an TT to laryngeal inlet. Thus, the key to a successful tracheal intubation using HA-VL lies not in the laryngeal view obtained but in the ease of inserting the TT. Recent meta studies comparing alternative intubation devices with the standard Macintosh laryngoscope in subjects with cervical spine immobilization reported that GlideScope® was associated with improved glottis visualization but no statistically significant differences in intubation failure or time to intubation compared with direct laryngoscopy.
The sniffing position recommended for direct laryngoscopy has been reported to interfere with successful tracheal intubation with HA-VL because flexion of the neck narrows the angle between the sternum and the chin, making it more difficult to insert the HA-VL blade into mouth. In contrast, placing the patient in a 'neutral' or 'back-up head-elevated (BUHE)' position was not associated with a higher incidence of difficult laryngoscope with HA-VL. Given that the 'BUHE' position, when compared with the regular supine position, extend the safe apnoea time during direct laryngoscopy, this position seems better suited for HA-VL than neutral position. However, there is currently insufficient evidence to recommend a specific patient position for the use of HA-VL.
Previous studies using magnetic resonance imaging (MRI) suggests that head elevation until the external auditory meatus and sternal notch (AM-S) are in the horizonal plane leads to better anatomic alignment of the pharyngeal and laryngeal axes. Investigators therefore hypothesized that BUHE position (to align the AM-S in horizontal plane), compared with neutral position, would allow a relatively straight passage which makes it easier to guide the TT into the laryngeal inlet (facilitates insertion of TT into the laryngeal entrance) during HA-VL guided intubation. To compare the effect of the BUHE position and the neutral position on the ease of tracheal intubation using a HA-VL (GlideScope®), MILS was applied to patients without any known or suspected neck pathology as a way of simulating a difficult airway. The primary outcome was the tracheal intubation time with both positions. Secondary outcomes examined included rates of successful tracheal intubation and intubation success rate, number of intubation attempts, heart rate responses during intubation, and handling of the Glidesope VL after alignment of the EAM and sternal notch.
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182 participants in 2 patient groups, including a placebo group
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Joo Hyun Jun, MD, PhD
Data sourced from clinicaltrials.gov
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