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A Comparison of Seal in Seven Supraglottic Airway Devices Using a Cadaver Model of Elevated Esophageal Pressure

Bercker, Sven MD*; Schmidbauer, Willi MD; Volk, Thomas MD; Bogusch, Gottfried PhD§; Bubser, Hans Peter MD; Hensel, Mario MD; Kerner, Thoralf MD

doi: 10.1213/ane.0b013e3181602ae1
Ambulatory Anesthesiology: Research Report

BACKGROUND: Supraglottic airway devices are increasingly important in clinical anesthesia and prehospital emergency medicine, but there are only few data to assess the risk for aspiration. We designed this study to compare the seal of seven supraglottic airway devices in a cadaver model of elevated esophageal pressure.

METHODS: The classic laryngeal mask airway, laryngeal mask airway ProSeal™, intubating laryngeal mask airway Fastrach™, laryngeal tube™, laryngeal tube LTS II™, Combitube™, and Easytube™ were inserted into unfixed human cadavers with an exposed esophagus that had been connected to a water column of 130 cm height. Slow and fast increases of esophageal pressure were performed and the water pressure at which leakage appeared was registered.

RESULTS: The Combitube, Easytube, and intubating laryngeal mask Fastrach withstood the water pressure up to more than 120 cm H2O. The laryngeal mask airway ProSeal, laryngeal tube, and laryngeal tube LTS II were able to block the esophagus until 72–82 cm H2O. The classic laryngeal mask airway showed leakage at 48 cm H2O, but only minor leakage was found in the trachea. Devices with an additional esophageal drain tube drained fluid sufficiently without pulmonary aspiration.

CONCLUSIONS: Concerning the risk of aspiration, the use of devices with an additional esophageal drainage lumen might be superior for use in patients with an increased risk of aspiration. The Combitube, Easytube, and intubating laryngeal mask Fastrach showed the best capacity to withstand an increase of esophageal pressure.

IMPLICATIONS: Using a cadaver model to assess the performance of seven supraglottic airway devices, protection against aspiration can be achieved either by a tight esophageal seal, as was obtained with the Intubating Laryngeal Mask Airway, the Easytube, and the Combitube, or with an esophageal lumen to direct regurgitated fluid out of the mouth.

From the *Department of Anesthesiology and Intensive Care Medicine, Leipzig University Hospital, Germany; †Department of Anesthesiology and Intensive Care Medicine, Bundeswehrkrankenhaus, Berlin, Germany; ‡Department of Anesthesiology and Intensive Care Medicine, Campus Virchow-Klinikum and Campus Charité Mitte, and §Center for Anatomy, Charité-Universitaetsmedizin, Berlin, Germany.

Accepted for publication October 3, 2007.

The first two authors contributed equally to the paper.

All authors disclose financial relationship to the manufacturers of the tested devices or any other conflict of interest.

Address correspondence and reprint requests to Dr. Sven Bercker, Klinik für Anästhesiologie und Intensivtherapie Universitätsklinikum Leipzig, Liebigstr.20, 04103 Leipzig Germany. Address e-mail to sven.bercker@medizin.uni-leipzig.de.

Supraglottic airway devices are increasingly important in securing the airway during general anesthesia. They are easy to use and are associated with a low incidence of complications. There are several reports of supraglottic airway devices in patients at risk for aspiration of gastric contents,1,2 but few studies have compared the risk of aspiration.3,4 Cadaver models have been used to investigate the seal of supraglottic airway devices and seem an appropriate model to address this issue without exposing patients to risk.5 The present study evaluated the seal provided by seven supraglottic airway devices during increased esophageal pressure in cadavers.

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METHODS

The study was approved by our IRB. The following airway devices were studied: Classic Laryngeal Mask Airway (Classic LMA), Laryngeal Mask Airway ProSeal™ (ProSeal LMA), Intubating Laryngeal Mask Airway Fastrach™ (Intubating LMA), Laryngeal Tube™, Laryngeal Tube LTS II™ (LTS II), Easytube™, and Combitube™ (Table 1). The sizes of the supraglottic airway devices were selected for the cadavers to establish a representative seal under physiological ventilation as described below (Combitube and Easytube 37 or 41 Charrière, Classic LMA, Laryngeal Tube, LTS II, ProSeal LMA, and Intubating LMA size 4 or 5).

Table 1

Table 1

Four female and one male cadavers were investigated within 24 h after death. The mean age was 74.8 yr (range, 63–84 yr). The cadavers were prepared to provide exposure of the esophagus and trachea in the neck. The esophagus was connected to a flexible tube with a diameter of 2 cm, using a tight suture (Fig. 1). The distal end of the tube was a 130-cm vertical column that was filled with water to apply a precisely measured esophageal pressure (up to 130 cm H2O or 12.75 kPa). The trachea was sutured to a reservoir bag to collect aspirated fluid (Dräger, Lübeck, Germany). After insertion of each device in the anatomically correct position, the cuff was inflated in accordance with the manufacturers’ recommendations (60 cm H2O or 5.8 kPa for all devices). In devices with two cuffs, both were inflated up to the same pressure. Cuff pressure was controlled using a manometer (VBM Medizintechnik, Sulz, Germany). All devices were inserted by the same experienced anesthesiologist (W.S.) and secured with tape. Correct position was defined as sufficient ventilation without any esophageal or pharyngeal leak (i.e., no bubbles were detectable in the water column). Ventilation was performed with a maximum peak inspiratory pressure of 20 cm H2O (1.96 kPa). The Combitube and Easytube were inserted with distal tube placement into the esophagus.

Figure 1

Figure 1

Two different tests were performed simulating a slow increase (test 1) and a rapid increase (test 2) in esophageal pressure. Both tests were conducted 10 times for every device in every cadaver in randomized order.

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Test 1: Slow Increase of Esophageal Pressure

After placing the device, the water column was connected to the esophagus and filled every 10 s with an additional 5 cm of water to a maximum height of 130 cm H2O (12.75 kPa). Loss of seal was defined as fluid leaking from the esophageal tube into the pharynx or trachea. The column height at loss of seal was recorded. As test 1 was designed to evaluate the esophageal seal, it was performed with a closed esophageal lumen in the Easytube, ProSeal LMA, LTS II, and Combitube.

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Test 2: Immediate Increase of Esophageal Pressure

The column was completely filled up to 130 cm height while the esophageal tube was clamped. After removing the clamp, the remaining column’s height after 60 s was measured. As viscous gastric contents may block the esophageal drains in vivo, devices with an esophageal drainage tube (i.e., Easytube, ProSeal LMA, LTS II, and Combitube) were tested twice, once with an open drainage lumen and once with the lumen closed. The leakage fraction was measured from the trachea and from the device’s airway lumen separately.

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Statistical Analysis

Homogeneity of variance was tested before further analysis. For statistical analysis, test 1 and test 2 were examined separately. To test for significant differences, a one-way ANOVA and a Bonferroni post hoc multiple-comparison were performed using SPSS™ 10.0 (SPSS, Chicago, IL) for test 1 and test 2. P < 0.05 was considered significant.

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RESULTS

The ProSeal LMA, Laryngeal Tube, and LTS II did not differ among themselves but lost seal at significantly lower pressures than the Intubating LMA, Easytube, and Combitube. The Intubating LMA performed significantly better than the Classic LMA, ProSeal LMA, Laryngeal Tube, and LTS II, but had a poorer seal than the Combitube (test 1 and test 2) and Easytube (only test 2). In both test 1 and test 2, the Classic LMA had a significantly poorer esophageal seal than the six other devices, but it did well at protecting the trachea from aspiration (Table 2).

Table 2

Table 2

Test 1: The Combitube, Easytube (both with clamped drain tube), and Intubating LMA showed the best seal and withstood the water pressure up to a mean of 115 cm H2O (Intubating LMA), 120 cm H2O (Easytube), and 125 cm H2O (Combitube) during a slow increase of pressure. The ProSeal LMA, Laryngeal Tube, and LTS II were able to block the esophagus up to a mean pressure of 71 cm H2O (ProSeal LMA), 70 cm H2O (Laryngeal Tube), and 74 cm H2O (LTS II). The Classic LMA lost its seal at 48 cm H2O (Fig. 2).

Figure 2

Figure 2

Test 2: The results of test 2 were similar to test 1. During the rapid increase of esophageal pressure, the Combitube and Easytube (both with clamped drainage tube) and the Intubating LMA showed the best seal [125/123/107 cm H2O after 60 s (mean)], whereas the Classic LMA drained fluid down to a column’s height of 45 cm in 60 s (Table 2). The Combitube, Easytube, ProSeal LMA, and LTS II drained the water without any tracheal aspiration when the esophageal drainage tube was open.

The three devices with the best seal (Combitube, Easytube, and Intubating LMA) only allowed minor leakage of fluid, with no fluid detected in the trachea. The Classic LMA provided the worst esophageal seal.

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DISCUSSION

This study evaluated supraglottic airway devices and their ability to seal the esophagus during a simulated increase of esophageal pressure in cadavers. The Combitube, Easytube, and Intubating LMA had the best capability to withstand increased esophageal pressure. The ProSeal LMA, Laryngeal Tube, and LTS II did not seal the esophagus up to the maximum pressure. The Classic LMA had the poorest esophageal seal. All devices with an esophageal lumen drained fluid effectively when tested with an open drainage tube.

Esophageal pressure during vomiting has not been carefully studied. Fanning postulated an esophageal pressure of more than 60 cm H2O during vomiting by analyzing cricoid pressure during intubation.6 Brimacombe and Keller described a patient vomiting through a ProSeal LMA over a distance of 1.2 m and postulated after simulation in a model that the esophageal pressure was 105 cm H2O.7 Our maximum pressure of 130 cm H2O might be substantially higher than in vivo pressures during vomiting. Perhaps such effective esophageal seals might pose a risk of esophageal rupture during vomiting. The ProSeal LMA, Laryngeal Tube, and LTS II effectively sealed the esophagus to about 70 cm H2O in both tests, offering a better seal than the Classic LMA.

Four devices had esophageal cuffs: the Laryngeal Tube, the LTS II, the Easytube, and the Combitube. Of these, the Easytube and the Combitube provided an effective seal at the highest pressure tested, whereas the Laryngeal Tube and LTS II leaked at approximately 70 cm H2O (6.86 kPa). Four devices had esophageal lumens: the Combitube, Easytube, ProSeal LMA, and LTS II. All four devices drained fluid adequately and prevented tracheal aspiration with the lumen open. Several case reports have documented similar efficacy with the ProSeal LMA.8–10

Other studies in model systems have resulted in similar conclusions. In a manikin model, Miller and Light found that the Classic LMA protects the airway less effectively than the Laryngeal Tube.11 In a cadaver study of simulated vomiting, the ProSeal LMA prevented tracheal aspiration, as the esophageal lumen allowed complete escape and drainage of gastric contents. Additionally, the ProSeal LMA with a clamped esophageal drainage tube withstood higher esophageal pressures than the Classic LMA.5

It is unclear how to place our results into clinical perspective. Consistent with our results, there are a number of cases of aspiration with the Classic LMA.12 However, some studies have suggested that supraglottic airway devices may be safely used during laparoscopic surgery, despite the increased risk of aspiration due to elevated intraabdominal pressure (typically limited to 15 mm Hg).13,14 Our study suggests that the Combitube provides better airway protection than the Classic LMA. Some clinical studies have not demonstrated this,15 although studies in prehospital use suggest that the Combitube provides better protection against aspiration than the Classic LMA.16

There are several possible limitations of this study. Even though we used fresh unfixed cadavers, the properties of pharyngeal soft tissue might differ from patients. Brimacombe and Keller evaluated the Classic LMA in vivo and in fresh unfixed cadavers and found no differences in ease of insertion, anatomic position, or sealing pressures.17 Also, our study did not assess insertion time or the skill required to place the devices, considerations that may affect the safety of the devices.18

In conclusion, all devices sealed the esophagus effectively to at least 40 cm H2O, indicating that they should be safe during routine use in the operation room. The Combitube, Easytube, and Intubating LMA showed the best seal with a closed esophageal drainage lumen. In patients with an increased risk of aspiration, or in emergencies, devices with tighter seals or esophageal lumens might provide increased safety.

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REFERENCES

1. Nolan JP, Deakin CD, Soar J, Bottiger BW, Smith G. Eur Resuscitation Council guidelines for resuscitation 2005. Section 4. Adult advanced life support. Resuscitation 2005;67(suppl 1):S39–86
2. Natalini G, Lanza G, Rosano A, Dell’Agnolo P, Bernardini A. Standard Laryngeal Mask Airway and LMA-ProSeal during laparoscopic surgery. J Clin Anesth 2003;15:428–32
3. Rumball CJ, MacDonald D. The PTL Combitube, laryngeal mask, and oral airway: a randomized prehospital comparative study of ventilatory device effectiveness and cost-effectiveness in 470 cases of cardiorespiratory arrest. Prehosp Emerg Care 1997;1:1–10
4. Keller C, Brimacombe J, Radler C, Puhringer F. Do laryngeal mask airway devices attenuate liquid flow between the esophagus and pharynx? A randomized, controlled cadaver study. Anesth Analg 1999;88:904–7
5. Keller C, Brimacombe J, Kleinsasser A, Loeckinger A. Does the ProSeal laryngeal mask airway prevent aspiration of regurgitated fluid? Anesth Analg 2000;91:1017–20
6. Fanning GL. The efficacy of cricoid pressure in preventing regurgitation of gastric contents. Anesthesiology 1970;32:553–5
7. Brimacombe J, Keller C. Hypopharyngeal seal pressure during projectile vomiting with the ProSeal laryngeal mask airway: a case report and laboratory study. Can J Anaesth 2006;53:328
8. Mark DA. Protection from aspiration with the LMA-ProSeal after vomiting: a case report. Can J Anaesth 2003;50:78–80
9. Evans NR, Llewellyn RL, Gardner SV, James MF. Aspiration prevented by the ProSeal laryngeal mask airway: a case report. Can J Anaesth 2002;49:413–6
10. Brimacombe J, Keller C. Airway protection with the ProSeal laryngeal mask airway. Anaesth Intensive Care 2001;29:288–91
11. Miller DM, Light D: Storage capacities of the laryngeal mask and laryngeal tube compared and their relevance to aspiration risk during positive pressure ventilation. Anesth Analg 2003;96: 1821–2
12. Keller C, Brimacombe J, Bittersohl J, Lirk P, von Goedecke A. Aspiration and the laryngeal mask airway: three cases and a review of the literature. Br J Anaesth 2004;93:579–82
13. Roth H, Genzwuerker HV, Rothhaas A, Finteis T, Schmeck J. The ProSeal laryngeal mask airway and the laryngeal tube Suction for ventilation in gynaecological patients undergoing laparoscopic surgery. Eur J Anaesthesiol 2005;22:117–22
14. Ho BY, Skinner HJ, Mahajan RP. Gastro-oesophageal reflux during day case gynaecological laparoscopy under positive pressure ventilation: laryngeal mask vs. tracheal intubation. Anaesthesia 1998;53:921–4
15. Hagberg CA, Vartazarian TN, Chelly JE, Ovassapian A. The incidence of gastroesophageal reflux and tracheal aspiration detected with pH electrodes is similar with the Laryngeal Mask Airway and Esophageal Tracheal Combitube—a pilot study. Can J Anaesth 2004;51:243–9
16. Tanigawa K, Shigematsu A. Choice of airway devices for 12,020 cases of nontraumatic cardiac arrest in Japan. Prehosp Emerg Care 1998;2:96–100
17. Brimacombe J, Keller C. The laryngeal mask airway in fresh cadavers versus paralysed anaesthetized patients: ease of insertion, airway sealing pressure, intracuff pressures and anatomic position. Eur J Anaesthesiol 1999;16:699–701
18. Bein B, Carstensen S, Gleim M, Claus L, Tonner PH, Steinfath M, Scholz J, Dorges V. A comparison of the proseal laryngeal mask airway, the laryngeal tube S and the oesophageal-tracheal combitube during routine surgical procedures. Eur J Anaesthesiol 2005;22:341–6
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