Respiratory distress in neonates of smoker mothers - are there any specific considerations?
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Rethinking the neonatal transport ground ambulance.
Read about a detailed project aimed to realize a dedicated ground ambulance for neonatal emergency transport service (NETS).
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By AllThingsNeonatal in All Things NeonatalTo be sure there are fans of both HFNC and CPAP out there. I have often heard from other Neonatologists that they use HFNC and find positive results while other centres refuse to use it in favour of the tried and true CPAP. Turning to the literature you will find some conflicting results with some studies suggesting equity and others more recently favouring CPAP. There has been speculation as to why one would be superior to the other and now we appear to have some answers as to where the differences lie.
A Physiologic Study
Liew et al published Physiological effects of high-flow nasal cannula therapy in preterm infants this month in an elegant study of 40 infants. The study was fairly simple in design either randomizing infants <37 weeks to starting with nCPAP +6 and then transitioning to 8 l/min HFNC followed by stepwise reductions of 1 l/min until 2 l/min was reached or the reverse, starting with 2 l/min and working their way up and then transitioning to nCPAP+6. All infants were on one or the other modality at the start and were all at least 3 days old, they were randomized to one or the other arm regardless of where they started off. Physiologic measurements were taken at each step including the following:
Mv -Minute ventilation
pEEP – nasopharyngeal end-expiratory pressure
pEECO2 -nasopharyngeal end-expiratory CO2
RR – respiratory rate;
SpO2 – oxygen saturation
TCCO2 – transcutaneous CO2
Vt – tidal volume
A Fabian device was used to deliver either HFNC or CPAP at the different flows for all patients.
The authors certainly found some interesting results that I think shed some light on why comparisons of HFNC and CPAP have been so inconsistent.
Table 2 contains the results of the study and I will point out the main findings below.
1. Flow matters – Compared to nCPAP+6 which is fairly consistent flows below 6 l/min deliver pEEP that is below 6 cm H2O.
2. Keep the mouth shut – With CPAP whether the mouth is open or closed the Fabian device delivers +6 cm H2O. As you can see from the table, when the mouth is open transmitted pressures drop off substantially. The infant put on a flow of even 6-8 l/min of HFNC sees pressures less than +6 consistently.
3. As flows increase end expiratory CO2 decreases. HFNC seems to help wash out CO2
4. Low flow rates on HFNC do not seem to help with ventilation as much as higher flow rates. In order to maintain Mv these infants at 2 l/min flow become tachypneic. The low pressures produced likely cause some atelectasis and hence tachypnea.
Size matters! Beware of excessive pressures.
An additional finding of this study was that on “multiple linear regression, flow rate, mouth position, current weight and gestation but not prong-to-nares ratio significantly predicted pEEP and account for a significant amount of its variance (F(4431)=143.768, p<0.0001), R2=0.572, R2=adjusted 0.568).” Essentially, infants under 1000g in particular could see pEEP levels as high as 13 cm H2O with flows of 8 l/min. The variability in transmitted pressures with HFNC is shown nicely in this figure from the study.
As flows increase above 6 l/min the actual pressures delivered become less reliable.
Looking at this data, it becomes evident why HFNC may be failing in its attempt to dethrone nCPAP. In order to achieve higher pressures and provide comparable distending pressure to nCPAP you need higher flows. With higher flows though come the problem of greater variability in delivered pressure. While the average pressure delivered may be equivalent or even higher than a CPAP of +6, in some infants (especially those below 1000g) one may be delivering significantly higher pressures than intended which may help with oxygenation and preventing intubation but others may be seeing far less than needed.
What it comes down to is that nCPAP is better at delivering a consistent amount of pressure. Studies using lower flows of HFNC likely failed to show superiority to CPAP as they just didn’t deliver enough pressure. An example of this was the study by Roberts CT et al Nasal High-Flow Therapy for Primary Respiratory Support in Preterm Infants, in which flows of 6-8 l/min were used. Other studies using higher pressures could have been problematic due to open mouths, or larger babies not receiving as much benefit.
I am not saying that we should throw out HFNC entirely however. Depending on the unit you practice in you might not be able to use CPAP but HFNC may be allowed. If you had to choose between no support or HFNC I would likely go with the HFNC. For me at least, if I want to delivery reliable pressures in my tertiary care NICU I will be calling for the CPAP.
By AllThingsNeonatal in All Things NeonatalI have written about non-traditional methods of providing surfactant to newborns previously. The practice of intubating a preterm infant to administer surfactant and leaving the endotracheal tube in with a slow wean of ventilation is mostly a thing of the past (at least in my units). Strategies have evolved and have seen the development of the INSURE technique, LISA methods, use of an LMA to delivery surfactant and even simple deposition into the pharynx all with variable success.
The Holy Grail
To me at least, the Holy Grail of surfactant delivery has been aerosolization. A small non randomized study was done in by Finer et al in 2010 An open label, pilot study of Aerosurf® combined with nCPAP to prevent RDS in preterm neonates. This study noted a reduction in CPAP failure with nebulized surfactant but as a pilot was not large enough to move the needle. Since then the Cochrane group weighed in and declared that there was not enough evidence to support the practice. The CureNeb group anchored by Dr. Pillow though has now published a double blind RCT entitled Nebulised surfactant to reduce severity of respiratory distress: a blinded, parallel, randomized controlled trial. It certainly sounds interesting and might help determine if the needle has indeed moved.
Poractant alfa at 200 mg/kg was used in this study and delivered via aerosolization using a vibrating membrane called the eFlow. The authors chose to look at infants from 29 0/7 to 33 6/7 weeks at birth and stratified them into two groups of 29 0/7 to 31 6/7 and 32 0/7 to 33 6/7 weeks. They estimated a need for 70 babies based on an anticipated failure rate of 30% in the control group vs 5% in the treatment group. Unfortunately, due to several reasons the study was only able to recruit 64 babies for randomization before being stopped due to the recruitment issues. The design of the study included adequate blinding with a sham procedure and there were predefined “failure criteria” necessitating intubation at the outset of the study. These criteria are acceptable to me as they are similar enough to my own practice and were:
1. FiO2 >0.35 over more than 30 min OR FiO2 >0.45 at
2. More than four apnoeas/hour OR two apnoeas requiring bag
and mask ventilation.
3. Two capillary blood gas samples with a pH <7.2 and partial pressure of carbon dioxide >65 mm Hg (or partial pressure
of carbon dioxide in arterial blood (PaCO2) >60 mm Hg if
arterial blood gas sample).
4. Intubation deemed necessary by the attending physician.
What did they find?
The primary outcome CPAP failure within 72 hours of birth was indeed different in the two groups.
CPAP failure by 72 hours CPAP + surfactant 11/32 (34%) CPAP 22/32 (69%) (RR (95% CI)=0.526 (0.292 to 0.950))
Clearly the event rates were quite off from what they expected in the power calculation but given that they found a difference as opposed to no difference at all the fact that they didn’t recruit the numbers they planned is of less importance.
However, what is interesting is when they looked at the planned analysis by stratification an interesting finding emerged.
Group 1 (29 0/7 to 31 6/7)
CPAP failure by 72 hours CPAP + surfactant 12/21 (57%) CPAP 12/19 (63%) (RR (95% CI)=0.860 (0.389 to 1.90))
Group 2 (32 0/7 to 33 6/7
CPAP failure by 72 hours CPAP + surfactant 1/11 (9%) CPAP 10/13 (77%) (RR (95% CI)=0.254 (0.089 to 0.727))
There were a number of secondary outcomes looked at as well which may be of interest to you but as the numbers here are quite small I will not comment other than to say there was no increased incidence of complications with surfactant administration in this fashion. Also for those who ultimately failed CPAP the time when they did so was quite delayed compared to CPAP alone. Age at intubation for nCPAP failure, hours 4.9 (2.7–10.6) 11.6 (9.0–31.1) 0.008*
What can we take from this?
I believe these results are encouraging even if the study is a small one. The message I take from this study is that aerosolization of surfactant delivers some amount of product to the lungs. Those with more significant RDS or smaller lungs (those in the 29 0/7 to 31 6/7 group) may not get enough surfactant to treat their RDS sufficiently to avoid intubation. Those with less significant RDS or a larger number of alveoli get “enough” of a dose delivered to the alveoli to make a difference and avoid intubation. It is worth stressing that there can be no specific comment about using this strategy in even more immature infants as they weren’t tested. If I had to guess though, I would expect no difference given the findings in the smaller group.
As a physician responsible for transport though I am interested in the potential benefits to those born in non-tertiary centres. Many centres lack individuals with the confidence and skill to regularly place endotracheal tubes. For these centres it may be that providing nebulized surfactant could delay the time to treatment failure, allowing more time for a trained transport team to arrive. Training of course would be needed in these centres on how to administer surfactant in this way but it is an interesting concept to consider. With a near tripling of the average time to treatment failure the extra hours on CPAP would be much appreciated when weather delays or difficulty securing air assets means long delays in transport team arrivals.
To be sure this isn’t the last study of this kind but it certainly is an interesting start and one that will no doubt produce questions that will help formulate the next study design.
By AllThingsNeonatal in All Things NeonatalJust about all of our preterm infants born at <29 weeks start life out the same in terms of neurological injury. There are of course some infants who may have suffered ischemic injury in utero or an IVH but most are born with their story yet to be told. I think intuitively we have known for some time that the way we resuscitate matters. Establishing an FRC by inflating the lungs of these infants after delivery is a must but as the saying goes the devil is in the details.
The Edmonton group led by Dr. Schmolzer has had several papers examined in these blogs and on this occasion I am reviewing an important paper that really is a follow-up study to a previous one looking at the impact of high tidal volume delivery after birth. I have written on this previous paper before in It's possibile! Resuscitation with volume ventilation after delivery. On this occasion the authors have published the following paper; Impact of delivered tidal volume on the occurrence of intraventricular haemorrhage in preterm infants during positive pressure ventilation in the delivery room.This observational study had a simple enough premise. Will the use of Vt > 6 mL/kg in infants given PPV for at least two minutes lead to worse rates of IVH? All infants were < 29 weeks and if they had chest compressions or epinephrine were excluded. All infants were treated equally in terms of delayed cord clamping and antenatal steroid provision. Ventilation was done with a t-piece resuscitator and Vt measured with an NM3 monitor connected to the face mask. First ultrasounds were done for all at 3 days of age.
What did the authors find?
One hundred and sixty five infants comprised this cohort. Overall, 124 (75%) infants were in the high volume group compared to 41 (25%) with a mean VT<6 mL/kg. Median Vt were 5.3 (4.6-5.7) ml/kg for the low group and 8.7(7.3-10.6) mL/kg which were significantly different.
When looking at the rates of IVH and the severity of those affected the results are striking as shown in the table. Hydrocephalus, following IVH developed in 7/49 (14%) and 2/16 (13%) in the >6 mL/kg and <6 mL/kg VT groups. Looking at other factors that could affect the outcome of interest the authors noted the following physiologic findings. Oxygen saturations were lower in the low volume group at 6, 13 and 14 min after birth while tissue oxygenation as measured by NIRS was similarly lower at 7,8 and 25 min after birth (P<0.001). Conversely, heart rate was significantly lower in the VT>6 mL/kg group at 5, 20 and 25 min after birth (P<0.001). Fraction of inspired oxygen was similar in both groups within the first 30 min. Systolic, diastolic and mean blood pressure was similar between the groups. What these results say to me is that despite having lower oxygen saturations and cerebral oxygen saturation at various time points in the first 25 minutes of life the infants seem to be better off given that HR was lower in those given higher volumes despite similar FiO2. Rates of volume support after admission were slightly higher in the high volume group but inotrope usage appears to be not significantly different. Prophylactic indomethacin was used equally in the two cohorts.
Thoughts for the future
Once a preterm infant is admitted to the NICU we start volume targeted ventilation from the start. In the delivery room we may think that we do the same by putting such infants on a volume guarantee mode after intubation but the period prior to that is generally done with a bag and mask. Whether you use a t-piece resuscitator or an anesthesia bag or even a self inflating bag, you are using a pressure and hoping not to overdistend the alveoli. What I think this study demonstrates similar to the previous work by this group is that there is another way. If we are so concerned about volutrauma in the NICU then why should we feel any differently about the first few minutes of life. Impairment of venous return from the head is likely to account for a higher risk of IVH and while a larger study may be wished for, the results here are fairly dramatic. Turning the question around, one could ask if there is harm in using a volume targeted strategy in the delivery room? I think we would be hard pressed to say that keeping the volumes under 6 mL/kg is a bad idea. The challenge as I see it now is whether we rig up devices to accomplish this or do the large medical equipment providers develop an all in one system to accomplish this? I think the time has come to do so and will be first in line to try it out if there is a possibility to do a trial.
01 July 2019 06:00 AM Until 30 September 2019 05:00 AM
0It is an online course which lasts 3 months, starting in July, 2019. 28 topics avilable 24/24 and 7/7. 22 mexican professors and 8 international ones.
05 September 2019 06:00 AM Until 09:00 PM
0After (another) successful meeting with NAVA enthusiast from several countries, we are ready to announce the date of the next workshop!
The goal of this event is to increase skills on the use of NAVA ventilation in the NICUs, which already have some experience with NAVA and they have a Servo-i or Servo-n ventilator.
Location: Turku, Finland
Registration fee: 600€ + taxes (incl. lunches and refreshments during the workshops)
How to register: contact Hanna Soukka (firstname.lastname@example.org or NAVA@tyks.fi before June 30, 2019)
The preliminary program is attached below. In case of any questions, don't hesitate to ask here or email!
We've received approval from Ethical MedTech.
On behalf of Hanna Soukka and Baby Friendly Ventilation Study Group,
NAVA workshop September 2019 invitation letter and preliminary program.pdf
11 September 2019 Until 13 September 2019
0Evidence and Excellence in Perinatal Care - BAPM and EBNEO Conference 2019
Join the fifth EBNEO conference of, this time in collaboration with the British Association of Perinatal Medicine
11-13 September 2019 at the Northumbria University, Newcastle UK
Click here for more info and to register!
17 September 2019 Until 21 September 2019
0Click here for all info: https://www.mcascientificevents.eu/jens/
20 October 2019 Until 23 October 2019
0Investing in a Healthy Future for All: Research, Education, Policy.
Participate in the 11th DOHaD World Congress which will be held in Melbourne, Australia in October 2019. The Congress is hosted by the DOHaD Society of Australia and New Zealand.
The Congress theme is Investing in a Healthy Future for All: Research, Education, Policy. The Congress will bring together basic and clinical researchers and health care professionals from around the world to address the many challenges that currently impact the health of mothers and fathers, babies in the womb, infants, children and adolescents, as well as explore solutions, interventions and policies to optimise health across the lifespan.
Click here to reach the conference web site!
14 November 2019 Until 15 November 2019
1The European Neonatal Ethics Conference is one of the premier events discussing issues involving ethical care around a variety of aspects in neonatal care. It is held every 3 years and is being held in Southampton United Kingdom this year. Besides addressing a number of different topics including issues of neonatal palliative care, organ donation and extremes of viability it is opportunity to share ethical practice across Europe.
Venue -St Mary's Stadium Southampton UK Dates 14th & 15th November 2019
Call for Abstracts-We are calling for abstracts for oral presentations, poster presentations, debates and round table discussions. More details are available here