Giving surfactant through an LMA. Time to ditch the endotracheal tube?


In the spirit of full disclosure I have to admit I have never placed a laryngeal mask airway (LMA) in a newborn of any gestational age.  I have played with them in simulated environments and on many occasion mentioned that they are a great alternative to an ETT especially in those situations where intubation may not be possible due to the skill of the provider or the difficulty of the airway in the setting of micrognathia for example.

In recent years though we have heard of examples of surfactant delivery via these same devices although typically these were only case reports. More recently a small randomized study of 26 infants by Attridge et al demonstrated in the group randomized to surfactant administration through an LMA that oxygen requirements were reduced after dosing.  This small pilot provides sufficient evidence to show that it is possible to provide surfactant and that at least some gets into the airway of the newborn.  This proof of concept though while interesting, did not answer the question of whether such delivery of surfactant would be the same or better than through an ETT.  As readers of my blog posts know, my usual stance on things is that the less invasive the better and as I look through the literature, I am drawn to concepts such as this to see if they can be added to our toolbox of non or less invasive strategies in the newborn.

A Minimally Invasive Technique For The Masses?

This past month, a small study by Pinheiro et al sought to answer this question by using 61 newborns between 29 0/7 – 36 6/7 weeks and greater than 1000g and randomizing them to either surfactant via the INSURE technique or LMA.  I cannot stress enough so will get it out of the way at the start that this strategy is not for those <1000g as the LMA is not designed to fit them properly and the results (to be shown) should not be generalized to this population. Furthermore then study included only those infants who needed surfactant between 4 – 48 hours of age, were on CPAP of at least 5 cm H2O and were receiving FiO2 between 30 – 60%.  All infants given surfactant via the insure technique were premedicated with atropine and morphine while those having an LMA received atropine only.  The primary outcome of the study was need for subsequent intubation or naloxone within 1 hour of surfactant administration.  The study was stopped early after an interim analysis (done as the fellow involved was finishing their fellowship – on a side note I find this an odd reason to stop) demonstrated better outcomes in the group randomized to the LMA.

Before we get into the results let’s address the possible shortcomings of the study as they might already be bouncing around your heads.  This study could not be blinded and therefore there could be a significant bias to the results.  The authors did have predetermined criteria for reintubation and although not presented, indicate that those participating stuck to these criteria so we may have to acknowledge they did the best they could here.  Secondly the study did not reach their numbers for enrolment based on their power calculation.  This may be ok though as they found a difference which is significant.  If they had found no difference I don’t think I would be even writing this entry!  Lastly this study used a dose of surfactant at 3 mL/kg.  How well would this work with the formulation that we use BLES that requires 5 mL/kg?

What were the results?

Intervention Failure LMA Group ETT group p
Any failure 9 (30%) 23(77%) <0.001
Early failure 1 (3%) 20 (67%) <0.001
Late failure 8 (27%) 3 (10%) 0.181

What do these results tell us?  The majority of failures occurred within an hour of delivery of surfactant in the ETT group?  How does this make any sense?  Gastric aspirates for those in the LMA group but not the INSURE group suggest some surfactant missed the lung in the former so one would think the intubation group should have received more surfactant overall however it would appear to be the premedication.  The rate of needing surfactant afterwards is no different and in fact there is a trend to needing reintubation more often in the LMA group but the study was likely underpowered to detect this difference.  Only two patients were given naloxone to reverse the respiratory depressive effects of morphine in those given the INSURE technique so I can’t help but speculate that if this practice was more frequent many of the reintubations might have been avoided.  This group was quite aggressive in sticking to the concept of INSURE as they aimed to extubate following surfactant after 5 – 15 minutes.  I am a strong advocate of providing RSI to those being electively intubated but if the goal is to extubate quickly then I believe one must be ready to administer naloxone soon after extubation if signs of respiratory depression are present and this did not happen effectively in this study.  Some may argue those getting the INSURE technique should not be given any premedication at all but that is a debate that will go on for years I am sure but they may have a valid point given this data.

Importantly complications following either procedure were minimal and no different in either group.

Where do we go from here?

Despite some of the points above I think this study could prove to be important for several reasons.  I think it demonstrates that in larger preterm infants it is possible to avoid any mechanical ventilation and still administer surfactant.  Many studies using the minimally invasive surfactant treatment (MIST) approach have been done but these still require the skill of laryngoscopy which takes a fair bit of skill to master.  The LMA on the other hand is quite easy to place and is a skill that can be taught widely.  Secondly, we know that even a brief period of over distension from PPV can be harmful to the lung therefore a strategy which avoids intubation and direct pressure to the lung may offer some longer term benefit although again this was not the study to demonstrate that.

Lastly, I see this as a strategy to look at in more rural locations where access to highly skilled level III care may not be readily available.  We routinely field calls from rural sites with preterm infants born with RDS and the health care provider either is unable to intubate or is reluctant to try in favour of using high flow oxygen via mask.  Many do not have CPAP either to support such infants so by the time our Neonatal Transport team arrives the RDS is quite significant.  Why not try surfactant through the LMA?  If it is poorly seated over the airway and the dose goes into the stomach I don’t see them being in any worse shape than if they waited for the team to arrive.  If some or all of the dose gets in though there could be real benefit.

Might this be right for your centre?  As we think about outreach education and NRP I think this may well become a strong reason to spend a little more time on LMA training.  We may be on to something!



3 thoughts on “Giving surfactant through an LMA. Time to ditch the endotracheal tube?

  1. Thanks a lot
    I am also teaching the providers how to use the LMA and I never use it in real life
    There is one study done by Dr kari Roberts in university of Minnesota about surfactant through LMA we can get through this also


  2. I’m very reluctant to adopted such approach .
    The LMA has been proposed always to help start vetilation where intubation is a huge challenge or and there is a lacks of preforming this skill .
    Father more to suggest doing that on rural area, where the fundamental basic skill are already lacking is a huge risk and might will cause ominous complications.


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