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Table of Contents
ORIGINAL ARTICLE
Year : 2012  |  Volume : 28  |  Issue : 3  |  Page : 322-325

Comparison of Cobra perilaryngeal airway (CobraPLA TM ) with flexible laryngeal mask airway in terms of device stability and ventilation characteristics in pediatric ophthalmic surgery


Department of Anaesthesiology and Intensive Care, Rajendra Prasad Institute of Ophthalmic Sciences, All India Institute of Medical Sciences, New Delhi, India

Date of Web Publication11-Jul-2012

Correspondence Address:
Renu Sinha
S-2, First Floor O.P.D. Block, R.P. Center, All India Institute of Medical Sciences, Ansari Nagar, New Delhi - 110029
India
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/0970-9185.98324

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  Abstract 

Background: Supraglottic airway devices play an important role in ophthalmic surgery. The flexible laryngeal mask airway (LMA TM ) is generally the preferred airway device. However, there are no studies comparing it with the Cobra perilaryngeal airway (CobraPLA TM ) in pediatric ophthalmic procedures.
Aims: To analyze the intraoperative device stability and ability to maintain normocarbia of CobraPLA TM and compare it to that with flexible LMA TM .
Materials and Methods: Ninety children of American Society for Anesthesiologists physical status 1 and 2, aged 3-15 years scheduled for elective ophthalmic surgeries were randomly assigned to either the CobraPLA TM or the flexible LMA TM group. After placement of each airway device, oropharyngeal leak pressure (OLP) was noted. Adequate seal of the devices was confirmed at an inspired pressure of 15 cm H 2 O and pressure-controlled ventilation was initiated. Device displacement was diagnosed if there was a change in capnograph waveform, audible or palpable gas leak, change in expired tidal volume to <8 ml/kg, end-tidal carbon-dioxide persistently >6 kPa, or need to increase inspired pressure to >18 cm H 2 O to maintain normocarbia.
Results: Demographic data, duration, and type of surgery in both the groups were similar. A higher incidence of intraoperative device displacement was noted with the CobraPLA TM in comparison to flexible LMA TM (P < 0.001). Incidence of displacement was higher in strabismus surgery (7/12). Insertion characteristics and ventilation parameters were comparable. The OLP was significantly higher in CobraPLA TM group (28 ± 6.8 cm H 2 O) compared to the flexible LMA TM group (19.9 ± 4.5 cm H 2 O) (P < 0.001). Higher surgeon dissatisfaction (65.9%) was seen in the CobraPLA TM group.
Conclusion: The high incidence of device displacement and surgeon dissatisfaction make CobraPLA TM a less favorable option than flexible LMA TM in ophthalmic surgery.

Keywords: Airway complication, CobraPLA TM , flexible laryngeal mask airway, pediatric ophthalmic surgery


How to cite this article:
Sunder RA, Sinha R, Agarwal A, Perumal BS, Paneerselvam SR. Comparison of Cobra perilaryngeal airway (CobraPLA TM ) with flexible laryngeal mask airway in terms of device stability and ventilation characteristics in pediatric ophthalmic surgery. J Anaesthesiol Clin Pharmacol 2012;28:322-5

How to cite this URL:
Sunder RA, Sinha R, Agarwal A, Perumal BS, Paneerselvam SR. Comparison of Cobra perilaryngeal airway (CobraPLA TM ) with flexible laryngeal mask airway in terms of device stability and ventilation characteristics in pediatric ophthalmic surgery. J Anaesthesiol Clin Pharmacol [serial online] 2012 [cited 2019 Sep 16];28:322-5. Available from: http://www.joacp.org/text.asp?2012/28/3/322/98324


  Introduction Top


Supraglottic airway (SGA) devices are commonly used in ophthalmic surgery and their choice is influenced by the need for maintenance of normocarbia, avoiding increase in intraocular pressure (IOP), and allowing smooth surgical access to the surgeon. [1] Cobra perilaryngeal airway (CobraPLA TM ) has comparable insertion and recovery characteristics and performance during controlled ventilation with other SGA. [2],[3],[4] However, it has not been compared with flexible laryngeal mask airway (LMA TM ) in pediatric ophthalmic procedures. This study aimed to compare CobraPLA TM and flexible LMA TM for device stability as the primary outcome. Secondary outcomes were evaluation of insertion characteristics, oropharyngeal leak pressure (OLP), ability to maintain normocarbia, and surgeon satisfaction.


  Materials and Methods Top


After Ethics Committee approval and written parental consent, 90 children of American Society for Anesthesiologists physical status 1 and 2, aged 3-15 years, and weighing >10 kg scheduled for ophthalmic surgery were included in the study. Children at risk for aspiration or anticipated difficult airway were excluded. Children were randomized by a computer-generated sealed envelope technique to receive either the CobraPLA TM (Engineered Medical Systems, Indianapolis, USA) (group C) or the flexible LMA TM (The Laryngeal Mask Company Limited Mahe, Seychelles) SGA (group F).

Sample size was determined using P = 0.05 and a power of 90% taking into account mean values and standard deviations of our primary variable [displacement] from the pilot study of 15 cases in each group. The largest sample size calculated was 36 in each group. We enrolled 45 cases in each group in view of drop out.

In the operating room, after application of standard monitors, anesthesia was induced with oxygen, nitrous-oxide, and incremental concentration of sevoflurane or with intravenous (IV) propofol. Analgesia was supplemented by fentanyl 2 mcg/kg IV and muscle relaxation was achieved with vecuronium. After 3 min of manual ventilation, the appropriate size of lubricated airway device was inserted according to standard technique by a single anesthesiologist who had more than 4 years experience in the use of both the devices. The device cuff was inflated to 60 cm H 2 O cuff pressure. At inspired pressure of 15 cm H 2 O, adequate seal was checked by no audible or palpable leak. Adequate ventilation was confirmed by chest expansion, a square capnograph, an expired tidal volume (TV) > 8 ml/kg, SpO 2 > 95%, end-tidal carbon-dioxide (EtCO 2 ) < 6 kPa. If the device did not fulfill these insertion criteria, jaw thrust, change in head and neck positions, or change in device size was done. The number of attempts and time for successful insertion (from discontinuation of mask ventilation till the confirmation of adequate ventilation) was recorded. Trachea was intubated after three unsuccessful attempts at insertion of SGA device and these cases were excluded from the study. After securing both the devices with maxillary and mandibular tape, flexible LMA TM was further taped across the chin. At 3 l/min fresh gas flow and with the adjustable pressure limiting valve fully closed, the airway pressure at which the palpable air leak at neck started but not exceeding 35 cm H 2 O was recorded as OLP.

Pressure-controlled ventilation was initiated using a closed circuit with oxygen, nitrous-oxide, and isoflurane (MAC 1.0). The initial inspiratory pressure (Pi) was set at 10 cm H 2 O and respiratory rate (RR) appropriate to the age of the child in order to achieve an expired TV > 8 ml/kg and EtCO 2 4.7-6 kPa. If the target was not achieved, initially Pi was increased by 1 cm H 2 O (maximum 18 cm H 2 O) and then RR was increased (maximum of 20/min). Train of Four (TOF) counts, EtCO 2 , Pi, and RR were recorded at 5 min intervals till the end of surgery.

The device was considered displaced, after ruling out incomplete paralysis (TOF count > 2) and light plane of anesthesia, if any two of the following criteria were present: change in capnograph, audible or palpable gas leak, expired TV < 8ml/kg, EtCO 2 persistently > 6 kPa, and need to increase Pi >18 cm H 2 O to maintain normocarbia. In case of suspected displacement, following maneuvers were done - change in head position, increase in FGF, change in Pi or RR, and finally, tracheal intubation.

Neuromuscular blockade was reversed at the end of surgery and the airway device was removed. The surgeons scored the device as satisfactory or unsatisfactory based on the ease of surgical access.

The observations in the two groups were compared using independent samples t-test/Wilcoxon rank sum test for continuous variables. Fisher's exact test/Chi square test was used for categorical variables. P < 0.05 was the critical level of statistical significance. Analysis was performed using SPSS15.0 and Stata 9 .


  Results Top


Demographic data and type of surgery in both the groups were similar [Table 1]. In group C, two patients were excluded due to trachea intubation and two patients were excluded for want of complete records. In group F, one patient had incomplete records. Data of only 41 cases in group C and 44 in group F were analyzed. Insertion characteristics and ventilation parameters were comparable. The OLP was significantly higher in CobraPLA TM group (28 ± 6.8 cm H 2 O) compared to the flexible LMA TM group (19.9 ± 4.5 cm H 2 O) (P < 0.001) and significantly more maneuvers were required for insertion of CobraPLA TM [Table 2].
Table 1: Demographic data and type of surgery

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Table 2: Insertion characteristics and oropharyngeal leak pressure

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Mean EtCO 2 values were higher with the CobraPLA TM , but remained within acceptable range. In group C, more adjustments in RR, Pi, and head repositioning were required to maintain normocarbia, though the mean EtCO 2 values were higher in comparison to group F. In group C, intraoperative displacement was observed in 12 children as compared to 1 child in group F (P = 0.001). Among the 12 displacements in group C, 3 children needed tracheal intubation, while displacement could be rectified with either an increase in RR and/or in Pi in 4 children, and head extension in 5 children. In group F, intraoperative displacement was rectified with increase in Pi. Out of 12 displacements in group C, 7 (58.3%) occurred during strabismus surgery, 4 (33.3%) during cataract surgery, and 1 (8.3%) during retinal surgery. The incidence of surgeon dissatisfaction was 65.9% (27/ 41) in group C (P < 0.001).


  Discussion Top


Cobra PLA TM [Figure 1] is a single-use plastic device which has a distal widened cobra head with soft grills, a rigid breathing tube with a circumferential inflatable cuff proximal to the ventilation outlet portion, inflation tube, a self-sealing pilot balloon, and a 15-mm standard adapter. Grills help in the deflection of the epiglottis off the Cobra head, thereby preventing the epiglottis from obstructing the breathing hole. The circumferential cuff resides in the hypopharynx at the base of the tongue and on inflation it raises the base of the tongue, exposing the laryngeal inlet, along with an airway seal to allow positive-pressure ventilation. [5] The flexible LMA TM [Figure 2] has an elliptical spoon-shaped silicon mask with two flexible vertical bars, connected at 30° angle to a flexible long narrow wire-reinforced breathing tube, an inflation tubing, self-sealing pilot balloon, and a 15-mm standard adapter. Bars prevent the tube from being obstructed by the epiglottis. The flexible tube can be bent to any angle without kinking. The LMA TM is inserted into the pharynx, where it forms a low-pressure seal above the laryngeal inlet. [5]
Figure 1: Cobra perilaryngeal airway

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Figure 2: Flexible laryngeal mask airway

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We found an increased incidence of intraoperative device displacement with the CobraPLA TM as compared to flexible LMA TM . Incidence of displacement was higher in strabismus surgery (58.3%), which was possibly due to surgical manipulations of extraocular muscles in the inferonasal and inferotemporal quadrants resulting in inadvertent mechanical pressures on the wide extra-oral rigid portion of the CobraPLA TM . The CobraPLA TM cannot be bent to be taped to the chin as it has a rigid airway tube; however, the flexible LMA TM can be taped to the chin as the airway tube is flexible and thus prevented from impeding surgical access.

Classic LMA and flexible LMA perform similarly in terms of ease of insertion and mask position. [6] Our findings, related to the insertion characteristics of both the devices, corroborate well with earlier studies. [6,7] Cuff-seal pressure in the Cobra PLA TM group was significantly better as compared to flexible LMA group in the present study. Higher cuff-seal pressures with Cobra PLA TM compared to other SGA devices have been reported in pediatric population. [8] Coupled with high leak pressures and unique head design, Cobra PLA TM is an effective device for controlled ventilation.

Head extension reduced the leak in 41.7% cases in the CobraPLA TM as it improves the seal in the upper pharynx. Lateral displacement of the Cobra PLA TM is not possible due to the large ellipsoid pharyngeal cuff. Positioning the head in extension is required in certain ocular procedures. Higher cuff-seal pressures have been reported with Cobra PLA TM compared to Proseal LMA in this position. [9] Flexible LMA has lower OLP with neck extension in comparison to neutral and flexion positions. [10] There was high surgeon dissatisfaction (65.9%) in the CobraPLA TM group due to poorer surgical access, interruptions to surgery with requests for change of head position, and device change.

Maintenance of normocarbia is essential in intraocular surgeries as in all surgeries. Normocarbia was achieved in both the groups in our study; however, more frequent adjustments were required in the ventilatory setting in group C.

In conclusion, the CobraPLA TM is comparable to the flexible LMA TM in terms of insertion characteristics and ability to maintain normocarbia during controlled ventilation. The CobraPLA TM should however be used with great caution in surgeries where manipulation of extraocular muscles is required due to the high incidence of device displacement and surgeon dissatisfaction. Flexible LMA TM seems to be a better option to CobraPLA TM in such cases.

 
  References Top

1.Feldman MA, Patel A. Anesthesia for Eye, Ear, Nose and Throat Surgery. In Miller's Anesthesia, 7 th ed. Philadelphia: Churchill Livingstone: Elsevier; 2010. p. 2383.  Back to cited text no. 1
    
2.Hooshangi H, Wong DT. Brief review: The Cobra Perilaryngeal Airway (CobraPLA) and the Streamlined Liner of Pharyngeal Airway (SLIPA) supraglottic airways. Can J Anaesth 2008;55:177-85.  Back to cited text no. 2
[PUBMED]    
3.Szmuk DI, Ghelber O, Matuszczak M, Rabb MF, Ezri T, Sessler DI. A prospective, randomized comparison of cobra perilaryngeal airway and laryngeal mask airway unique in pediatric patients. Anesth Analg 2008;107:1523-30.   Back to cited text no. 3
    
4.Nam S, Han D, Chang C, Lee J. A randomized crossover comparison between the CobraPLA and the LMA Classic in paralysed patients. Anaesthesia 2007;62:1285-8.  Back to cited text no. 4
    
5.Dorsch JA, Dorsch SE. Supraglottic Airway Devices In: Dorsch JA, Dorsch SE, editors. Understanding Anesthesia Equipment. 5 th ed. Philadelphia: Lippincott William and Wilkins; 2008. p. 461-518.   Back to cited text no. 5
    
6.Brimacombe J, Keller C. Comparison of the flexible and standard laryngeal mask airways. Can J Anaesth 1999;46:558-63.  Back to cited text no. 6
[PUBMED]  [FULLTEXT]  
7.Andrews DT, Williams DL, Alexander KD, Lie Y. Randomised comparison of the classic laryngeal mask airway with the cobra perilaryngeal airway during anaesthesia in spontaneously breathing adult patients. Anaesth Intensive Care 2009;37:85-92.  Back to cited text no. 7
[PUBMED]    
8.Akca O, Wadhwa A, Sengupta P, Durrani J, Hanni K, Wenke M, et al. The new perilaryngeal airway (CobraPLA) is as efficient as the laryngeal mask airway (LMA) but provides better airway sealing pressures. Anesth Analg 2004;99:272-8.  Back to cited text no. 8
    
9.Park SH, Han SH, Do SH, Kim JW. The influence of head and neck position on the oropharyngeal leak pressure and cuff position of three supraglottic airway devices. Anesth Analg 2009;108:112-7.  Back to cited text no. 9
    
10.Keller C, Brimacombe J. The influence of head and neck position on oropharyngeal leak pressure and cuff position with the flexible and the standard laryngeal mask airway. Anesth Analg 1999;88:913-6.  Back to cited text no. 10
[PUBMED]  [FULLTEXT]  


    Figures

  [Figure 1], [Figure 2]
 
 
    Tables

  [Table 1], [Table 2]


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