Every now and then something unconventional comes to my attention. Management of pain is something that I have written about before and have been a proponent of things such as kangaroo care and breastfeeding to help improve responses to pain from common procedures like heel lances. Foot reflexology is a practice that is based on the notion that there are pressure points on our bodies that if pressed can elicit internal reactions in our organs. A map of such points for the foot is shown below.
There are strong proponents of this practice and I have to admit I was taken once for a session myself as a gift from someone. At the very least I felt like it was a good massage although the pituitary point of my big toe was a little to painful as I recall to endure. Whether or not my pituitary health benefited from this I guess I will never know.
What about foot reflexology for heel lances in NICU?
This is the question that a Turkish group of researchers decided to look at in their paper The effect of foot reflexology on procedural pain before heel lancing in neonates. The authors used what they called a quasi-experimental design in which they took 30 healthy neonates and provided them with foot reflexology for 20 minutes prior to heel lance vs 30 neonates who just had the heel lancing without prior reflexology. These again were healthy term neonates with a BW from 2500-4000g who were all breastfed for up to 30 minutes before the heel lance. For the reflexology group they received 15-20 minutes of reflexology while being held in their mother’s arms. The Neonatal infant pain scale was used before, during and after the procedure and was interpreted by viewing videos of the neonates by two nurses blinded to the groups that the babies were in. Although the study was not randomized this step at least attempted to remove bias from the interpretation of the facial expressions.
Analyzing the Results
From the above tables there are a few things the authors would like your attention drawn to. The first is that during the heel lance the pain scores were the same but afterwards babies who had reflexology had lower pain scores that were significantly so. The issue though with this is the scores themselves since it is a difference that while statistically significant is of unlikely clinical impact. For the NIPS scores, a score over 3 is suggestive of pain. Given that the control arm is 2.96 and the reflexology 1.80 with wide confidence intervals I am not sure if we can say these babies were in a lot of pain. During the procedure which is when I would have hoped to see a difference in pain scores there is none and with scores close to 7 for both groups let’s not kid ourselves. These babies were in pain with and without reflexology.
Looking at physiological changes there were none that came out as significant although after the intervention as with the NIPS score the heart rates were a little lower in 154 vs 147 but again what clinical significance is this?
Interestingly, crying afterwards was much less and just reached significance but again is this real or just a fluke finding given how many things they have looked at?
Finally, the big issue I suppose I have here is that the control group was not held by the mother prior to the intervention as they were in the reflexology group. I think it would have given some strength to the study had mothers held their infant in the control group for 15-20 minutes prior to the heel lance. Not sure why that wasn’t done.
Ok, I am a skeptic. As you might suspect I think that the real intervention here was mother’s holding their infants for 20 minutes on average before the procedure. Having said that is a gentle massage of the foot such a bad thing? The authors are talking about a future RCT and I guess that could be done but I think there are better options out there such as kangaroo care, breastfeeding, drops of mother’s milk in the cheek or even just the scent of mother’s milk that are great options for reducing pain the neonate.
Will have a look though if an RCT does happen as I could always be wrong…
If you work in Neonatology you talk about caffeine endlessly whether addressing your own consumption or that of your patients. Our unit like many others typically starts caffeine early in a prophylactic fashion for babies under 32 weeks. The reason for this is due to the high incidence of apnea (AOP) in this population. The incidence of AOP follows an inverse relationship with GA, affecting 50% of those born at 30 weeks versus 7% at 34-35 weeks. Using caffeine in a more therapeutic approach is certainly sensible for babies older than 32 weeks given the lower likelihood of events. People who argue for a prophylactic strategy cite lower incidence of BPD and PDA from the CAP study while those on the side of reserving treatment for those who really need it put more emphasis on potential adverse effects such as polyuria, tachycardia and electrolyte disturbances. I have already revealed my bias as our centre takes a prophylactic approach but the question is whether it is still right given that the CAP study was many years ago now. A new study emerged this week that was shared on Twitter and generated some interesting discussion. So interesting in fact that I thought there was no better place to discuss this paper than here.
Head to Head Comparison
Elmowafi M et al published Prophylactic versus therapeutic caffeine for apnea of prematurity: a randomized controlled trial this month. This trial included 90 infants in the prophylactic arm (caffeine started < 72 hours of age) vs 91 in the therapeutic arm (only started in presence of apnea or if a baby needed mechanical ventilation and all infants were under 32 weeks of age at birth. Unfortunately, while the study was prospecitve it was not blinded although the authors state that in the therapeutic arm a neonatologist who was not part of the study team made the diagnosis of AOP. Caffeine dosing was standardized using the citrate form at 20 mg/kg as a load and with 10 mg/kg maintenance dosing (divide by 2 for base equivalents).
The primary outcome was total duration of oxygen support and a sample size was chosen based on a previous pilot RCT and the expectation that they could show a reduction in O2 requirement of 7 days in the prophylactic group. Looking at the baseline characteristics of the groups the only difference was the median day of starting caffeine which for the prophylactic group was day 1 and for therapeutic day 3.
What happened in both groups and the reasons for starting caffeine are shown in teh following diagram.
As you can see, 13 patients were started due to need for initial mechanical ventilation, 28 for late mechanical ventilation with the rest being apnea as a reason except for 18 patients who never needed caffeine. When looking at the whole patient population the primary outcome was no different between the groups using an intention to treat analysis.
What the authors did next is where the controversy comes from but has some interesting data nonetheless. They did a “per-protocol analysis” on the whole group and found the following:
Per protocol analysis showed that prophylactic caffeine therapy was associated with a significant reduction in the duration of oxygen therapy compared to therapeutic initiation among included preterm infants [median and IQR of 28 (18–36) days versus 34 (23–51) days, p¼.005 respectively].
Essentially what this means is they said let’s exclude those babies who never needed caffeine and just compare babies that all received caffeine in either arm. Now they see a difference of 6 days which is pretty close to the 7 days expected . Purests will note though that by doing so you can’t claim that the groups were balanced in terms of risk factors since the presented baseline characteristics are not necessarily still the same.
They went further though and asked the question. “What about a subgroup of <29 weeks?”. These babies are undoubedly higher risk for AOP and ventilation. Is the problem that the inclusion of babies 30-31 weeks diluted a potential benefit? Here is what they found.
The main two things to draw your attention to are the marked reduction in mild to moderate BPD and shorter length of stay in hospital. Moreover when they looked at risk of BPD for the whole group they found a reduction in risk. Importantly there was no difference in adverse effects from caffeine use in either arm of concern.
What Can We Take From This?
Any discussion about adverse effects needs to acknowledge that these are short term outcomes we are looking at. Do babies who have never received caffeine do better in the long run? The CAP study did not suggest that was the case but it was a different time with different babies. Do I think caffeine is harmful? No I don’t, especially in the babies who would otherwise experience multiple apneic events or prolonged ventilation.
What this study does raise in my mind though is whether a change in approach to prophylactic caffeine is warranted. The authors don’t specify (I don’t think) but I suspect the bulk of the babies who did not need caffeine were in the 30-31 week group. We know that positive pressure ventilation is harmful to the developing preterm lung. Providing caffeine in the first few hours of life in the hopes of avoiding invasive ventilation or shortening the course of ventilation is the main reason that we likely see consistent reductions in BPD with its use. Under 29 weeks I would certainly favour giving caffeine early but above that as the risk of BPD drops considerably is a watch a wait approach a reasonable one to take? As this study was unblinded it is possible the babies were treated differently with respect to ventilation and apnea managment but I do think the risk is low. If the attendings caring for the babies were not part of the study and knew they were free to give caffeine if needed there may be less risk of bias.
In the end the results of this study in essence are supportive of my practice. I suspect they support many others as well. To answer the question really about side effects I suspect we would need much larger sample sizes than this with adequate power to detect differences but for now I will continue to say “give it and give it early!”
I recall the shock waves through the neonatal community when ILCOR changed its recommendation to stop routine intubation of non-vigorous infants born through meconium. The rationale again was that for most practitioners it would be better to give bag valve mask ventilation and establish a functional residual capacity than try and intubate and start with a collapsed lung.
Oommen VI et al wrote a brief report on their experience in the UK with the change as recommended for these infants. Their brief publication has a large cohort that is looked at and one result in particular I found interesting enough to share with you today. The publication is Resuscitation of non-vigorous neonates born through meconium-stained amniotic fluid: post policy change impact analysis. The authors looked prospectively at the “new approach” group from October 2016-September 2017 and compared their outcomes to the retrospecitve cohort in the same hospital from August 2015-July 2016 as the “old approach” group.
As you can see in Table 1 they saw a lot of deliveries during this time that were complicated by meconium. This gives us a good before and after comparison and while not all prospective and ensuring that practices were otherwise the same it is a pretty decent sample to look at. I like seeing that 7% of the group in the new approach still received endotracheal suctioning. It is worth remembering that what the recommendation says is to not do this routinely but if the resuscitation is not going well and the baby not responding to ventilation it is reasonable to apply suctioning as they would have done to see if there is any obstructive material in the airway.
It is the last comparison in Table 1 though that drew my attention. Over 50% of the non-vigorous babies needing routine suctioning in the retrospective arm needed NICU admission compared to 19.1% of the new approach group which was quite significant. More on this later.
In Table 2 the authors compare the respiratory morbidities showing no difference in rates of ventilation, HFOV, surfactant or iNO. What they are demonstrating is that to the best of their abilities the babies were similar in terms of respiratory morbidiites in a binary sense. What I mean here is that when you ask the question did they need any of these aforementioned things it is a yes or no. What is not easy to pick up from the table is the quality of the respiratory disease. In the table they make it clear that severe respiratory disease was the same at 56% pre and 40% post and of course all of these babies would have needed admission. What we don’t know is what happened to the mild to moderate group.
The whole point of giving PPV for the non-vigorous infant is to establish FRC. In the old approach it is conceivable that some of the infants could have lost volume during attempted intubation. The resultant delay in oxygenation could exacerabate any tendency to pulmonary hypertension. It could also turn a baby from one that could have had mild grunting to one that needed CPAP. Put another way it could have changed the outcome from a baby that needed observation and some prone positioning for a few hours to one that is committed to admission.
What these results show is basically what the intent of doing away with routine suctioning was supposed to do. The vast majority of severe disease in meconium aspiration syndrome is acquired in-utreo. Hypoxia and acidosis contribute to pulmonary hypertension while gasping respirations lead to inhalation of meconium deep into the airways. Suctioning after birth is not really going to help this cohort much. Providing positive pressure ventilation to the more mildly affected infants however may help open their lungs whereas delays in initiating would have the opposite effect.
In the end routine suctioning was a dogma that was in need of a challenge. The authors in the body of the paper go through other similar studies and in all but one the findings are similar. I commend the authors here for their humility as they do add at the end of the report all the potential shortcomings of the research. I for one don’t think it was necessary, as well designed research and thought went into taking down the dogma of routine suctioning. There is complete biological plausability for the findings presented here and I for one am glad to see that research in this case informed practice change that I believe was for the better.
As awful as COVID19 has been over the last year and a half one thing has continued to perplex myself and others. Why do babies whethe term or preterm so rarely acquire the virus? Numerous studies have been able to document placental changes and infection of these tissues. On rare occasions reports have come out with evidence of neonatal infection but fortunately most are mild.
These findings have in large part contributed to the Canadian Pediatric Society practice points on three topics.
In this post an argument was made that the reason these infants are resistant is due to low levels of ACE-2 receptors in the nasal mucosa of children. In this study children as young as 4 years of age were found to have very low levels of this receptor (portal of entry for SARS-CoV-2) into the host. I speculated at the time that if one carried forward the findings to younger children and infants you might find there were hardly any receptors at all.
Well, someone finally did the study and confirmed what I suspected. The study report is entitled Nasal expression of SARS-CoV-2 entry receptors in newborns by Heinonen S et al. It’s not a big study but the results are consistent across 28 newborns (17 term and 11 preterm) and 10 adults. In each newborn whether term or preterm a nasal mucosal scraping was performed at 24 hours of age and used to measure by reverse-transcription quantitative PCR mRNA expression of ACE2, transmembrane serine protease 2 (TMPRSS2), neuropilin 1 (NRP1) and neuropilin 2 (NRP2) and insulin-like growth factor 1 receptor (IGF1R).
What the results show you is that babies are not just small adults. They are different yet preterm do not seem to be that different than term infants in terms of receptors. While ACE2 has garnered most of the attention when it comes to receptors for SARS-CoV-2 the others also play a role and are in general expressed to a lesser degree in neonates than adults.
In the previous post I argued what was in your nose makes a difference to your risk of contracting SARS-CoV-2. Really the point is what is not in your nose. Thankfully neonates do not have good expression of these receptors and that may be the biggest reason for the general protection they have from this pandemic. It has certainly a good time to be in the “have not” group!
A couple years back at the Canadian Pediatric Society annual meeting a discussion broke out about extubating infants to higher levels of CPAP. Conventional thinking had been to use levels between 5 – 8 cm H2O typically. I shared with the group the experience we had in Winnipeg (unpublished) of using higher levels from 9 -12 cm H2O with some degree of success in allowing earlier extubation. The group thought it was interesting but pointed out the lack of robust research in the area so were not so keen to “try it out”. Non-invasive positive pressure ventilation (NIPPV) has been used for some time in the neonatal world and has been compared to CPAP for extubation success and found to be superior as in this review Comparison of Complications and Efficacy of NIPPV and Nasal CPAP in Preterm Infants With RDS. In this review though as in others more typical CPAP levels are used so the question is whether the same efficacy would be seen with high level CPAP vs NIPPV.
Canadian Study to the Rescue
The study here is by Ahmad HA et al Comparison of High CPAP versus NIPPV in Preterm Neonates: A Retrospective Cohort Study and seeks to answer this question albeit in a retrospective fashion. The study is not well controlled since it is retrospective but it may be the best we have for now. Over a 3 year period the authors examined the outcomes for babies trialed on high CPAP (hCPAP of at least 9 cm H20) vs NIPPV. In each case they looked at the first episode of use. The modalities could have been used for extubation or as a primary means of support. The primary outcome was failure of the modality as defined by either intubation or change to the other strategy within 7 days. A total of 53 infants received hCPAP vs 119 NIPPV. Why the big difference? Since this was retrospective and not randomized it was up to the individual practioner which modality they wanted to try. If the majority of the unit favoured NIPPV this is why there would be such a difference. Herein lies the benefit of the primary outcome as if “conventional wisdom” was wrong and the other modality would be better then we should see a greater movement to the other strategy or more intubations in one group suggesting superiority of one vs the other.
The groups however aren’t entirely equivalent at baseline. The babies in the hCPAP group are quite a bit smaller on the one hand which would favour the NIPPV group. On the other hand there is almost a significant difference in surfactant provision for the hCPAP arm which might favour the hCPAP group. The other thing also nearing statistical significance is when the intervention was trialed. The median time is 2 days for teh NIPPV group and 7 for hCPAP suggesting one may have been used more prophylactically and the other post extubation. Different strategies might make a difference to outcome? Also no infants received MIST or INSURE and all were started on traditional lower levels of CPAP prior to surfactant.
The results tell an interesting story (I think) with the primary outcome being no different 62% in the hCPAP vs 55% with NIPPV. Looking at the patient outcomes in the figure from the paper one gets a little more detail and can surmise how people viewed the two modalities as a strategy and can see they were a bit different.
There seems to have more confidence in the unit with NIPPV as a way to prevent intubation. For those that failed hCPAP 12/33 were intubated as the next step (about a third) while the other 2/3 were trialed on NIPPV. Looking at those started out on NIPPV, 38/66 were intubated directly 58% or almost 2/3 while 28/66 were trialed on hCPAP. Of the ones trialed on hCPAP 20/28 or 71% were still intubated. Comparatively of those who were changed from nCPAP to NIPPV 11/21 were intubated or about 50%.
The authors find no difference in the primary outcome which is true. The problem of course with this analysis though is that there was no standardization with determining when one would choose to intubate. This issue can really play with the results. Let’s say for example that one Neonatologist really believes for the most part that NIPPV is the mode that can really prevent intubation more than hCPAP. It is conceivable that the reason in crossover intubations are less with NIPPV is that people were willing to tolerate a slightly higher pCO2 or a couple more apneas since they believe the modality is best and the infant will “get better soon”. On the other hand, infants already on NIPPV who are deteriorating might be intubated more readily as the attending might think “this hCPAP is a bunch of malarky”
It is worth mentioning that the incidence of air leak was no different between the two, nor was NEC or feeding intolerance from exposing the babies to such high pressures.
The study doesn’t “prove” anything. I don’t see it as a complete waste though as it does a number of things. It does show that small infants can be managed with hCPAP in NICU without any significant increase in complications. It also sets the stage for a couple future prospective trials I can see. Firstly, a trial of traditional CPAP vs hCPAP is needed as some units don’t have access to NIPPV or simply don’t use. The second is a prospective trial with clear parameters for failure between hCPAP and NIPPV. Lastly, the authors ran the NIPPV and CPAP off ventilators in the units. The work of breathing would be potentially different with the use of devices solely designed for CPAP with fluidic flips. It would be important to use optimal devices for both modalities in such a trial and I for one can’t wait to see them.