A Comparison of GlideScope Video Laryngoscopy Versus Direct Laryngoscopy Intubation in the Emergency Department

Objectives: The first‐attempt success rate of intubation was compared using GlideScope video laryngoscopy and direct laryngoscopy in an emergency department (ED). Methods: A prospective observational study was conducted of adult patients undergoing intubation in the ED of a Level 1 trauma center with an emergency medicine residency program. Patients were consecutively enrolled between August 2006 and February 2008. Data collected included indication for intubation, patient characteristics, device used, initial oxygen saturation, and resident postgraduate year. The primary outcome measure was success with first attempt. Secondary outcome measures included time to successful intubation, intubation failure, and lowest oxygen saturation levels. An attempt was defined as the introduction of the laryngoscope into the mouth. Failure was defined as an esophageal intubation, changing to a different device or physician, or inability to place the endotracheal tube after three attempts. Results: A total of 280 patients were enrolled, of whom video laryngoscopy was used for the initial intubation attempt in 63 (22%) and direct laryngoscopy was used in 217 (78%). Reasons for intubation included altered mental status (64%), respiratory distress (47%), facial trauma (9%), and immobilization for imaging (9%). Overall, 233 (83%) intubations were successful on the first attempt, 26 (9%) failures occurred, and one patient received a cricothyrotomy. The first‐attempt success rate was 51 of 63 (81%, 95% confidence interval [CI] = 70% to 89%) for video laryngoscopy versus 182 of 217 (84%, 95% CI = 79% to 88%) for direct laryngoscopy (p = 0.59). Median time to successful intubation was 42 seconds (range, 13 to 350 seconds) for video laryngoscopy versus 30 seconds (range, 11 to 600 seconds) for direct laryngoscopy (p < 0.01). Conclusions: Rates of successful intubation on first attempt were not significantly different between video and direct laryngoscopy. However, intubation using video laryngoscopy required significantly more time to complete.     

The Efficacy of a Standard Training Program for Transillumination–guided Endotracheal Intubation

Objective: To evaluate the success rate, intubation time, and complication rate of transillumination–guided intubation following two hours of instruction in the use of the Trachlight (TL) device.
Methods: A prospective, randomized crossover laboratory trial was conducted at an emergency medical service training site with 30 nonpaid volunteer paramedic students, one month prior to their graduation. The students were instructed in the use of the TL in a standardized curriculum consisting of didactic, video, and demonstration sessions. Each student was required to successfully intubate a training manikin with the TL five times. Approximately three weeks later, the students were asked to intubate the manikin 20 times, alternating between direct laryngoscopy (DL) and TL.
Results: The success rates were 94% for DL and 63% for TL (p < 0.0001). The mean intubation times were 14.6 seconds for DL and 16.8 seconds for TL (p < 0.001). The incidences of trauma were 7.3% for DL and 1.4% for TL (p < 0.001).
Conclusion: A two–hour training session, including five successful light–guided intubations using the TL, was inadequate for producing acceptable success rates during manikin intubations by paramedic students. While TL intubation intervals were shorter when successful, the 2.2–second difference was not clinically meaningful. The incidence of trauma in our manikin model during TL intubations was significantly lower than that with DL.     

Effects of cardiopulmonary resuscitation on direct versus video laryngoscopy using a mannequin model

IntroductionDuring the last decade, guidelines for cardiopulmonary resuscitation has shifted, placing chest compressions and defibrillation first and airway management second. Physicians are being forced to intubate simultaneously with uninterrupted, high quality chest compressions. Using a mannequin model, this study examines the differences between direct and video laryngoscopy, comparing their performance with and without simultaneous chest compressions.MethodsFifty emergency medicine physicians were randomly assigned to intubate a mannequin six times, using direct laryngoscopy (DL) and with two video laryngoscopy (VL) systems, a C-MAC traditional Macintosh blade and a GlideScope hyperangulated blade, with and without simultaneous chest compressions. A total of 300 intubations were completed and variables including intubation times, accuracy, difficulty, success rates and glottic views were recorded.ResultsThe C-MAC VL system resulted in quicker intubations compared to DL (p = 0.007) and the GlideScope VL system (p = 0.039) during active chest compressions. Compared to DL, intubations were rated easier for both the C-MAC (p < 0.0001) and the GlideScope (p < 0.0001). Intubation failure rates were also higher when DL was used compared to either the C-MAC or GlideScope (p = 0.029). VL devices provided a superior overall Cormack-Lehane grade view compared to DL (p < 0.0001). The presence of chest compressions significantly impaired Cormack-Lehane views during direct laryngoscopy (p = 0.007). Chest compressions made the intubation more difficult under DL (p = 0.002) and when using the C-MAC (p = 0.031). Chest compressions also made ETT placement less accurate when using DL (p = 0.004).ConclusionUsing a mannequin model, the C-MAC conventional VL blade resulted in decrease intubation times compared with DL or the GlideScope hyperangulated VL blade system. Overall, VL out performed DL in terms of providing a superior glottic view, minimizing failed attempts, and improving physician's overall perception of intubation difficulty. Chest compressions resulted in worse Cormack-Lehane views and higher rates of inaccurate endotracheal tube placement with DL, compared to VL.     

Video versus direct laryngoscopy on successful first-pass endotracheal intubation in ICU patients

BACKGROUND: Airway management in intensive care unit (ICU) patients is challenging. The aim of this study was to compare the rate of successful first-pass intubation in the ICU by using the direct laryngoscopy (DL) and that by using the video laryngoscopy (VL).METHODS: A randomized, non-blinded trial comparing first-pass success rate of intubation between VL and DL was performed. Patients were recruited in the period from August 2014 to August 2016. All physicians working at ICU received hands-on training in the use of the video and direct laryngoscope. The primary outcome measure was the first-pass intubation success.RESULTS: A total of 163 ICU patients underwent intubation during the study period (81 patients in VL group and 82 in DL group). The rate of successful first-pass intubation was not significantly different between the VL and the DL group (67.9% vs. 69.5%, P=0.824). Moreover, the overall intubation success and total number of attempts to achieve intubation success did not differ between the two groups. In patients with successful first-pass intubation, the median duration of the intubation procedure did not differ between the two groups. The Cormack-Lehane grades and the percentage of glottic opening score were similar, and no significant differences were found between the two groups. There were no statistical differences between the VL and the DL group in intubation complications (all P>0.05).CONCLUSION: Among ICU patients requiring intubation, there was no significant difference in the rate of successful first-pass intubation between VL and DL.     

Comparison of Endotracheal Intubation Skills With Video Laryngoscopy and Direct Laryngoscopy in Providing Airway Patency in a Moving Ambulance

BackgroundEarly and successful management of the airway in the prehospital and hospital settings is critical in life-threatening situations.ObjectiveWe aimed to perform endotracheal intubation (ETI) by direct laryngoscopy (DL) and video laryngoscopy (VL) on airway manikins on a moving track and to compare the properties of intubation attempts.MethodsOverall, 79 participants with no previous VL experience were given 4 h of ETI training with DL and VL using a standard airway manikin. ETI skill was tested inside a moving ambulance. The number of attempts until successful ETI, ETI attempt times, time needed to see the vocal cords, and the degree of convenience of both ETI methods were recorded.ResultsOverall, 22 of 79 individuals were men; mean age was 30.3 ± 4.5 years. No difference was found in the comparison of the two methods (p = 0.708). Time needed to see the vocal cords for those who were successful in their first attempt were between 1 and 8 s in both methods. In the VL method, time needed to see the vocal cords (p = 0.001) and the intubation time (p < 0.001) in the first attempt were shorter than in the DL method. The VL method was easier (p < 0.001). The success rate was 97.5% in DL and 93.7% in VL.ConclusionsThe VL method is rapid and easier to see the vocal cords and perform successful ETI. Therefore, it might be preferred in out-of-hospital ETI applications.     

Video screen viewing and first intubation attempt success with standard geometry video laryngoscope use

Study objectivesDirect laryngoscopy (DL) is the traditional approach for emergency intubation but video laryngoscopy (VL) is gaining popularity. Some studies have demonstrated higher first-attempt success with VL, particularly in difficult airways. In real-world settings, physicians choose whether or not to view the video screen when utilizing VL devices for tracheal intubation. Therefore, we sought to determine whether screen viewing is associated with higher intubation first-attempt success in clinical practice.MethodsIn this retrospective, observational investigation, we studied consecutive adult emergency department intubations at an urban, academic medical center during the calendar year 2013. Cases were identified from the electronic medical record and analyzed using standard video review methodology. We compared first-attempt success rates when standard geometry Macintosh VL was used, stratified by whether the screen was viewed or not.ResultsOf the 593 cases with videos available for review, 515 (87%) were performed with a standard geometry Macintosh video laryngoscope. First-attempt success was not significantly different when the screen was viewed (195/207; 94% [95%CI 91–97]) compared to when the screen was not viewed (284/301; 94% [95%CI 92–97]). The median first-attempt duration was longer when the screen was viewed compared to when the screen was not viewed (45 versus 33 s; median difference 12 s [95%CI 10–15 s]).ConclusionIn this study of orotracheal intubations performed by emergency physicians with Macintosh-style VL, the first-attempt success rate was high. The success rate was similar whether or not the intubating physician chose to view the video screen.     

Advanced Airway Type and Its Association with Chest Compression Interruptions During Out-of-Hospital Cardiac Arrest Resuscitation Attempts

Objective: To assess interruptions in chest compressions associated with advanced airway placement during cardiopulmonary resuscitation (CPR) of out-of-hospital cardiac arrest (OHCA) victims. Methods: The method used was observational analysis of prospectively collected clinical and defibrillator data from 339 adult OHCA victims, excluding victims with <5 minutes of CPR. Interruptions in CPR, summarized by chest compression fraction (CCF), longest pause, and the number of pauses greater than 10 seconds, were compared between patients receiving bag valve mask (BVM), supraglottic airway (SGA), endotracheal intubation (ETI) via direct laryngoscopy (DL), and ETI via video laryngoscopy (VL). Secondary outcomes included first pass success and the effect of multiple airway attempts on CPR interruptions. Results: During the study period, paramedics managed 23 cases with BVM, 43 cases with SGA, 148 with DL, and 125 with VL. There were no statistically significant differences between the airway groups with regard to longest compression pause (BVM 18 sec [IQR 11–33], SGA 29 sec [IQR 15–65], DL 26 sec [IQR 12–59], VL 22 sec [IQR 14–41]), median number of pauses greater than 10 seconds (BVM 2 [IQR 1–3], SGA 2 [IQR 1–3], DL 2 [IQR 1–4], VL 2 [IQR 1–3]), or CCF (0.92 for all groups). However, each additional attempt following failed initial DL was associated with an increase in the risk of additional chest compression pauses (relative risk 1.29, 95% confidence interval 1.02–1.64). Such an association was not observed with additional attempts using VL or SGA. First pass success was highest with SGA (77%), followed by between DL (68%) and VL (67%); these differences were not statistically significant. Conclusions: While summary measures of chest compression delivery did not differ significantly between airway classes in this observational study, repeated attempts following failed initial DL during cardiopulmonary resuscitation were associated with an increase in the number of pauses in chest compression delivery observed     

P ARAMEDIC U SE OF E NDOTRACHEAL T UBE I NTRODUCERS FOR THE D IFFICULT A IRWAY

Objective. To evaluate the ability of paramedics to learn and apply the skill of introducer-aided oral intubation in the setting of the simulated “difficult airway.” The authors hypothesized that, following a brief introduction to the device, intubation success rates would not differ for traditional and introducer-aided intubations of an immobilized airway mannequin. Methods. During a paramedic recertification class, experienced paramedics were given a brief didactic introduction to the “bougie-like” Flex Guide endotracheal tube introducer (ETTI). The participants were then asked to intubate adult mannequins immobilized in the head-neutral position, with and without the ETTI. “Successful placement” was defined as completion of the procedure within 30 seconds and endotracheal tube position confirmed by the investigator with direct visualization. Results. For both traditional and ETTI intubations, 34 (97%) of the 35 paramedics successfully intubated within 30 seconds. The two unsuccessful intubation attempts were recognized by the paramedic as esophageal intubations, and correct tube placement was obtained within an additional 30 seconds. Conclusion. In this study, use of the ETTI was mastered by the participants after only a brief didactic introduction to the device, with their ability to intubate an immobilized mannequin using the ETTI being equal to their ability to perform traditional intubation. These results suggest that use of the ETTI is easily learned, and may support the device's role in the prehospital management of the difficult airway.     

Assessment of candidemia-attributable mortality in critically ill patients using propensity score matching analysis

Introduction

Endotracheal intubation in the ICU is a challenging procedure and is frequently associated with life-threatening complications. The aim of this study was to investigate the effect of the C-MAC^? video laryngoscope on laryngeal view and intubation success compared with direct laryngoscopy.

Methods

In a single-center, prospective, comparative before-after study in an anesthetist-lead surgical ICU of a tertiary university hospital, predictors of potentially difficult tracheal intubation, number of intubation attempts, success rate and glottic view were evaluated during a 2-year study period (first year, Macintosh laryngoscopy (ML); second year, C-MAC^?).

Results

A total of 274 critically ill patients requiring endotracheal intubation were included; 113 intubations using ML and 117 intubations using the C-MAC^? were assessed. In patients with at least one predictor for difficult intubation, the C-MAC^? resulted in more successful intubations on first attempt compared with ML (34/43, 79% vs. 21/38, 55%; P = 0.03). The visualization of the glottis with ML using Cormack and Lehane (C&L) grading was more frequently rated as difficult (20%, C&L grade 3 and 4) compared with the C-MAC^? (7%, C&L grade 3 and 4) (P < 0.0001).

Conclusion

Use of the C-MAC^? video laryngoscope improved laryngeal imaging and improved the intubating success rate on the first attempt in patients with predictors for difficult intubation in the ICU setting. Video laryngoscopy seems to be a useful tool in the ICU where potentially difficult endotracheal intubations regularly occur.     

Comparison of the Pentax AWS videolaryngoscope with the Macintosh laryngoscope in simulated difficult airway intubations by emergency physicians

Objectives

The aim of this study was to evaluate the Pentax AWS videolaryngoscope (PAV) in intubation of simulated difficult airways by emergency medical staff.

Methods

Emergency medical staff and students attempted to intubate a manikin using 3 difficult airways settings with both the PAV and a Macintosh (MAC) laryngoscope in a randomized order. The success of tracheal intubation, time required, number of attempts, airway adjunct use, grade of view obtained, and participant comments were recorded.

Results

Significantly higher success rates of intubation occurred with the PAV compared with the MAC, irrespective of the level of training or number of previous intubations. With the highest difficulty setting, success occurred in 76.4% with the PAV versus 8.8% with the MAC. The PAV also significantly improved the Cormack and Lehane grading and reduced airway adjunct use, number of intubation attempts, and damage during intubation.

Conclusions

The PAV may be a useful adjunct in difficult intubations by emergency medical staff.     

Video Laryngoscopic Techniques Associated with Intubation Success in a Helicopter Emergency Medical Service System

Objectives. Video laryngoscopy (VL) is a technical adjunct to facilitate endotracheal intubation (ETI). VL also provides objective data for training and quality improvement, allowing evaluation of the technique and airway conditions during ETI. Previous studies of factors associated with ETI success or failure are limited by insufficient nomenclature, individual recall bias and self-report. We tested whether the covariates in prehospital VL recorded data were associated with ETI success. We also measured association between time and clinical variables. Methods. Retrospective review was conducted in a non-physician staffed helicopter emergency medical service system. ETI was typically performed using sedation and neuromuscular-blockade under protocolized orders. We obtained process and outcome variables from digitally recorded VL data. Patient characteristics data were also obtained from the emergency medical service record and linked to the VL recorded data. The primary outcome was to identify VL covariates associated with successful ETI attempts. Results. Among 304 VL recorded ETI attempts in 268 patients, ETI succeeded for 244 attempts and failed for 60 attempts (first-pass success rate, 82% and overall success rate, 94%). Laryngoscope blade tip usually moved from a shallow position in the oropharynx to the vallecula. In the multivariable logistic regression analysis, attempt time (p = 0.02; odds ratio [OR] 0.99), Cormack-Lehane view (p < 0.001; OR 0.23), bodily fluids obstructing the view (p = 0.01; OR 0.29), and VL equipment failure (p < 0.001; OR 0.14) were negatively associated with successful attempts. Bodily fluids obstructing the view (p < 0.001; hazard ratio [HR] 0.51), VL equipment failure (p = 0.003; HR 0.42), shallow placement of blade tip within 4 seconds (p < 0.001; HR 0.40), number of forward movements (p < 0.001; HR 0.84), trauma (p = 0.04; HR 0.65), and neurological diagnosis (p = 0.04; HR 0.60) were associated with longer ETI attempt time. Conclusions. Bodily fluids obstructing the view, equipment problems, higher Cormack-Lehane view, and longer ETI attempt time were negatively associated with successful ETI attempts. Initially shallow blade tip position may associate with longer ETI time. VL is useful for measuring and describing multiple factors of ETI and can provide valuable data.     

Video Laryngoscopy with the Macintosh Video Laryngoscope in Simulated Prehospital Scenarios by Paramedic Students

Objective. To investigate the effectiveness of the Karl Storz BERCI DCI Macintosh video laryngoscope (MVL) via the TELE PACK system for facilitating intubation by novice paramedic students in a simulation environment. We assessed the laryngeal view, measured by percentage of glottic opening (POGO), when intubating the SimMan manikin airway in different settings. The primary endpoint was the best POGO achieved by the student. Secondary endpoints included intubation times andsuccess rate. Method. We enrolled 25 novice paramedic students to intubate SimMan manikins. Students were randomized to use either a conventional Macintosh 3 (Mac3) blade alone or the MVL with a Mac3 blade. Students attempted their first intubation with the manikin on a stretcher in a normal neck position andreattempted intubation with the manikin's neck stiffened. The groups then crossed over using the alternate device to repeat the attempts in the manikin with a normal neck andwith a stiffened neck. The students then attempted the same sequence of four intubations with the manikin on the floor. Results. The MVL significantly improved POGO in all scenarios (p < 0.05). The MVL improved mean POGO 16% ± 6% in the manikin with a normal neck position on a stretcher and33% ± 7% in the manikin with a stiff neck on the floor. The improvement was significantly greater in simulated difficult scenarios. The intubation success rate (94%) was equal in the two groups, andthe POGO was significantly worse in the failures. In some subgroups, intubation times were longer with the MVL. Conclusion. The MVL improves the laryngeal view for novice laryngoscopists in a simulated setting, andthis improvement is greatest in simulated difficult scenarios     

Video laryngoscopy improves the first-attempt success in endotracheal intubation during cardiopulmonary resuscitation among novice physicians

AimTo compare the first-attempt success in endotracheal intubation (ETI) during cardiopulmonary resuscitation (CPR) using direct laryngoscopy (DL) and video laryngoscopy (VL) (GlideScope^®) among novice emergency physicians (EPs).MethodsThis study is a historically controlled clinical design. From May 2011 to April 2013 out-of-hospital cardiac arrest patients were intubated during CPR by novice EPs. CPR data was automatically recorded by pre-installed video and subsequently analysed. The primary outcome was the success rate of the first-attempt at ETI. In addition, time to successful ETI from first-attempt (T-complete), duration of chest compression interruptions, and incidence of oesophageal intubation were compared.ResultsOf 305 patients undergoing ETI, 83 were intubated by novice EPs. The success rate of first-attempt ETI in the VL group (n = 49) was higher than that in the DL group (n = 34, 91.8% vs. 55.9%; p < 0.001). The median T-complete was significantly shorter with VL than with DL (37 [29–55] vs. 62 [56–110] s; p < 0.001). Oesophageal intubation was observed only in the DL group (n = 6, 17.6%). The median duration of chest compression interruptions was greater with DL (7 [3–6] s) than with VL (0 [0–0] s). Improvements in ETI during CPR were observed in the VL group after the first 3 months, but not the DL group during regular use for 1 year.ConclusionsFor novice EPs, the VL could significantly improve the first-attempt success in ETI during CPR while the DL couldn’t improve it.     

Emergency Physician–Verified Out-of-hospital Intubation: Miss Rates by Paramedics

OBJECTIVES: To prospectively quantify the number of unrecognized missed out-of-hospital intubations by ground paramedics using emergency physician verification as the criterion standard for verification of endotracheal tube placement. METHODS:The authors performed an observational, prospective study of consecutive intubated patients arriving by ground emergency medical services to two urban teaching hospitals. Endotracheal tube placement was verified by emergency physicians and evaluated by using a combination of direct visualization, esophageal detector device (EDD), colorimetric end-tidal carbon dioxide (ETCO(2)), and physical examination. RESULTS: During the six-month study period, 208 out-of-hospital intubations by ground paramedics were enrolled, which included 160 (76.9%) medical patients and 48 (23.1%) trauma patients. A total of 12 (5.8%) endotracheal tubes were incorrectly placed outside the trachea. This comprised ten (6.3%) medical patients and two (4.2%) trauma patients. Of the 12 misplaced endotracheal tubes, a verification device (ETCO(2) or EDD) was used in three cases (25%) and not used in nine cases (75%). CONCLUSIONS: The rate of unrecognized, misplaced out-of-hospital intubations in this urban, midwestern setting was 5.8%. This is more consistent with results of prior out-of-hospital studies that used field verification and is discordant with the only other study to exclusively use emergency physician verification performed on arrival to the emergency department.     

T HE P RACTICE OF C LINICAL E CHOCARDIOGRAPHY,S ECOND E DITION

Abstract

Background. Multiple studies have demonstrated varying rates of successful endotracheal intubation (ETI). Until the application of video laryngoscopy, little information regarding prehospital intubation could be analyzed objectively by individuals other than the provider performing the ETI. Objective. To evaluate the association of variables recorded during video laryngoscopy and successful ETI attempts, defined as placing the endotracheal tube in the trachea. Methods. We retrospectively reviewed intubations performed by a single helicopter emergency medical service (HEMS) using a video larygoscope from March 1, 2010, to October 1, 2010. All videos were de-identified and analyzed by a single researcher. Time intervals (e.g., attempt time) and intubation process variables (e.g., Cormack-Lehane [C-L] view) were abstracted from all videos. Time intervals were begun when the laryngoscope blade passed the lips and entered the oral cavity (entry). We describe variables using means and standard deviations (continuous), medians with interquartile ranges (ordinal), and percentages with 95% confidence intervals (categorical). We then looked at univariate associations between these variables and ETI success using logistic regression. Results. We recorded 116 intubations during the study period. Twenty-nine recordings were either incomplete (n = 26) or of insufficient quality for analysis (n = 3). The remaining 87 videos represented 87 different patients with a total of 102 attempts at laryngoscopy. Thirty-six providers performed 64 cases, with the majority of providers (n = 21) performing only one intubation. The first-pass success rate in this series was 76% (n = 66), with 98% success within three attempts. Successful ETI attempts had lower entry–to–percentage of glottic opening (POGO) times (16.6 sec vs. 32.1 sec, p = 0.013), entry–to–first view of the endotracheal tube or entry-to-tube times (17.6 sec vs. 27.4 sec, p = 0.04), higher POGO scores (76 vs. 39, p < 0.001), and a lower C-L view (one vs. three, p < 0.001). Recognized esophageal intubation was more likely to occur during unsuccessful ETI attempts (43% vs. 8%, p < 0.001). Conclusion. Video laryngoscopy can measure multiple components of ETI performance. Successful ETI attempts have significantly shorter entry-to-POGO times and entry-to-tube times, obtain better views of the glottic opening (POGO and C-L view), and have a lower incidence of recognized esophageal intubation.     

Endotracheal Intubation with the King Laryngeal Tube™ In Situ Using Video Laryngoscopy and a Bougie: A Retrospective Case Series and Cadaveric Crossover Study

Background

Removal of a functioning King laryngeal tube (LT) prior to establishing a definitive airway increases the risk of a “can't intubate, can't oxygenate” scenario. We previously described a technique utilizing video laryngoscopy (VL) and a bougie to intubate around a well-seated King LT with the balloons deflated; if necessary, the balloons can be rapidly re-inflated and ventilation resumed.

Video laryngoscopy improves intubation success and reduces esophageal intubations compared to direct laryngoscopy in the medical intensive care unit

Introduction

Tracheal intubation in the Intensive Care Unit (ICU) can be challenging as patients often have anatomic and physiologic characteristics that make intubation particularly difficult. Video laryngoscopy (VL) has been shown to improve first attempt success compared to direct laryngoscopy (DL) in many clinical settings and may be an option for ICU intubations.

Methods

All intubations performed in this academic medical ICU during a 13-month period were entered into a prospectively collected quality control database. After each intubation, the operator completed a standardized form evaluating multiple aspects of the intubation including: patient demographics, difficult airway characteristics (DACs), method and device(s) used, medications used, outcomes and complications of each attempt. Primary outcome was first attempt success. Secondary outcomes were grade of laryngoscopic view, ultimate success, esophageal intubations, and desaturation. Multivariate logistic regression was performed for first attempt and ultimate success.

Results

Over the 13-month study period (January 2012-February 2013), a total of 234 patients were intubated using VL and 56 patients were intubated with DL. First attempt success for VL was 184/234 (78.6%; 95% CI 72.8 to 83.7) while DL was 34/56 patients (60.7%; 95% CI 46.8 to 73.5). Ultimate success for VL was 230/234 (98.3%; 95% CI 95.1 to 99.3) while DL was 52/56 patients (91.2%; 95% CI 81.3 to 97.2). In the multivariate regression model, VL was predictive of first attempt success with an odds ratio of 7.67 (95% CI 3.18 to 18.45). VL was predictive of ultimate success with an odds ratio of 15.77 (95% CI 1.92 to 129). Cormack-Lehane I or II view occurred 199/234 times (85.8%; 95% CI 79.5 to 89.1) and a median POGO (Percentage of Glottic Opening) of 82% (IQR 60 to 100) with VL, while Cormack-Lehane I or II view occurred 34/56 times (61.8%; 95% CI 45.7 to 71.9) and a median POGO of 45% (IQR 0 to 78%) with DL. VL reduced the esophageal intubation rate from 12.5% with DL to 1.3% (P = 0.001) but there was no difference in desaturation rates.

Conclusions

In the medical ICU, video laryngoscopy resulted in higher first attempt and ultimate intubation success rates and improved grade of laryngoscopic view while reducing the esophageal intubation rate compared to direct laryngoscopy.     

C OMPARISON OF T IMES TO I NTUBATE A S IMULATED T RAUMA P ATIENT IN T WO P OSITIONS

Background. The nature of the trauma patient's injuries may compromise the airway and ultimately lead to death or neurological devastation. The same injuries complicate protecting the airway in these patients by preventing manipulation of the cervical spine for direct laryngoscopy. A recent study has shown that misplaced endotracheal tubes occur significantly more often in trauma patients than in medical patients. Objectives. The authors hypothesized that elevating the long spine board would reduce the amount of time required for paramedics to intubate a simulated trauma patient. Methods. Paramedics from an urban emergency medical services division were given up to two opportunities to intubate a manikin in a type I ambulance in each of two positions in random order: supine and with the head elevated. The manikin was secured to a long spine board with three straps, a semi-rigid cervical collar, and a cervical immobilization device. An investigator maintained cervical spine alignment and provided cricoid pressure. The elevated position was accomplished by raising the head of the stretcher 27°, resulting in 7° of spine board elevation. Each attempt was timed. If the first attempt was unsuccessful, the times for both the first and second attempts were totaled to determine the total time required for intubation. Times for successful intubation in each position were compared with a Mann-Whitney test. First-attempt success rates for each position were compared with χ² analysis. Multinomial regression was used to determine whether experience, paramedic height, or previous intubation success influenced intubation time in either position. Results. Fifty-five paramedics provided informed consent and completed the study. Average time to intubate the supine manikin was significantly longer than needed to intubate the head-elevated manikin (35.6 ± 19.0 seconds vs 27.9 ± 12.8 seconds, p = 0.025). The manikin was successfully intubated on the first attempt 84% in the supine position and 95% in the head-elevated position (p = 0.200). Regression analysis identified intubation position as the only significant predictor of intubation time (p = 0.007). Conclusions. Modest elevation of the head of an immobilized patient appears to allow more rapid intubation. With the spine board properly secured to the stretcher, this technique potentially offers improved intubation time without additional cost or equipment.