Survey of neonatal resuscitation practices showed post-training improvements but need to reinforce preterm management, monitoring and adrenaline use

[A cross-sectional survey of delivery room transitional care management for very/extremely preterm infants in 24 hospitals in Shenzhen City]

OBJECTIVES

To investigate the current status of delivery room transitional care management for very/extremely preterm infants in Shenzhen City.

METHODS

A cross-sectional survey was conducted in November 2022, involving 24 tertiary hospitals participating in the Shenzhen Neonatal Data Network. The survey assessed the implementation of transitional care management in the delivery room, including prenatal preparation, delivery room resuscitation, and post-resuscitation management in the neonatal intensive care unit. Very/extremely preterm infants were divided into four groups based on gestational age: <26 weeks, 26-28+6 weeks, 29-30+6 weeks, and 31-31+6 weeks. Descriptive analysis was performed on the results.

RESULTS

A total of 140 very/extremely preterm infants were included, with 10 cases in the <26 weeks group, 45 cases in the 26-28+6 weeks group, 49 cases in the 29-30+6 weeks group, and 36 cases in the 31-31+6 weeks group. Among these infants, 99 (70.7%) received prenatal counseling, predominantly provided by obstetricians (79.8%). The main personnel involved in resuscitation during delivery were midwives (96.4%) and neonatal resident physicians (62.1%). Delayed cord clamping was performed in 52 cases (37.1%), with an average delay time of (45±17) seconds. Postnatal radiant warmer was used in 137 cases (97.9%) for thermoregulation. Positive pressure ventilation was required in 110 cases (78.6%), with 67 cases (60.9%) using T-piece resuscitators and 42 cases (38.2%) using a blended oxygen device. Blood oxygen saturation was monitored during resuscitation in 119 cases (85.0%). The median time from initiating transitional care measures to closing the incubator door was 87 minutes.

CONCLUSIONS

The implementation of delivery room transitional care management for very/extremely preterm infants in the hospitals participating in the Shenzhen Neonatal Data Network shows varying degrees of deviation from the corresponding expert consensus in China. It is necessary to bridge the gap through continuous quality improvement and multicenter collaboration to improve the quality of the transitional care management and outcomes in very/extremely preterm infants.

Changes in perinatal management and outcomes in infants born at 23 weeks of gestational age during the last decade in Spain

INTRODUCTION

The 2021-updated guidelines of the Spanish Society of Neonatology Guidelines have moved the zone of parental discretion to 23 + 0-23 + 6 weeks. The objective of this study was to describe the changes in perinatal management at this gestational age along the last decade and to determine if a more active perinatal management has contributed to improved outcomes.

METHODS

Retrospective analysis of prospectively collected data from the 23-week infants included in the Spanish SEN 1500 neonatal network during the period 2010-2019. The main study outcomes were survival at discharge and survival without major morbidity of actively managed infants. Two periods were compared: 2010-2014 (Period 1) and 2015-2019 (Period 2). NICUs were classified into low activity NICUs (less than 50 admissions of very low birth weight infants per year) and high activity NICUs (50 or more admissions).

RESULTS

A total of 381 infants were included, 182 in Period 1 and 199 in Period 2. In Period 2 an increase in the use of intrapartum magnesium sulfate (21.5% vs 39.9%, p .002), antenatal steroids (56.6% vs 69.3%, p .011) and active neonatal approach in delivery room (76.9% vs 86.9%, p .011) were observed.The clinical outcomes of the actively managed 313 infants were similar in both periods, except for less arterial hypotension in Period 2. Survival was 27.1% in Period 1 and 25% in Period 2 (p .068) and survival without major morbidity was 2.1% and 2.3% respectively (p .914). No difference was found between low and high activity NICUs.

CONCLUSION

A change to a more active intention to treat infants born at 23 weeks is taking place in Spain. But the survival rate of the actively-managed infants has remained stable around 25-30% during the study period. A multidisciplinary effort is needed to improve outcomes in this population.

[Training, experience and need of booster courses in neonatal cardiopulmonary resuscitation. Survey to pediatricians]

INTRODUCTION

the resuscitation of the newborn in the delivery room requires high capacities and occurs frequently in an unexpected way. Many professionals trained in pediatrics as pediatric residents will work posteriorly in pediatric units with delivery rooms and will perform neonatal resuscitation only occasionally. Skills acquired in practice or resuscitation courses deteriorate over time.

MATERIAL AND METHODS

descriptive observational study through a survey to pediatricians trained in neonatology at a tertiary hospital in Madrid, and who completed their residency period between 2009 and 2016. Questions about their training in resuscitation and their usual work in the delivery room.

RESULTS

Out of 179 surveys sent 140 pediatricians (78,2%) answered it. 73.6% took a training course in neonatal resuscitation during the residency. There was a progressive increase in the number of residents who did the course during the study period. 74.3% have worked after residency in assistance at birth. 40.7% have taken a refresher course in neonatal resuscitation.

CONCLUSIONS

training in neonatal resuscitation has increased and been consolidated during the training process for pediatric residents. A high percentage of pediatricians work after the residency in pediatric units with delivery rooms, less than half of these professionals having been recycled in neonatal resuscitation. Recycling and periodic training seem interesting options to improve the performance of these professionals in the delivery room.

Defining information needs in neonatal resuscitation with work domain analysis

OBJECTIVE

To gain a deeper understanding of the information requirements of clinicians conducting neonatal resuscitation in the first 10 min after birth.

BACKGROUND

During the resuscitation of a newborn infant in the first minutes after birth, clinicians must monitor crucial physiological adjustments that are relatively unobservable, unpredictable, and highly variable. Clinicians' access to information regarding the physiological status of the infant is also crucial to determining which interventions are most appropriate. To design displays to support clinicians during newborn resuscitation, we must first carefully consider the information requirements.

METHODS

We conducted a work domain analysis (WDA) for the neonatal transition in the first 10 min after birth. We split the work domain into two 'subdomains'; the physiology of the neonatal transition, and the clinical resources supporting the neonatal transition. A WDA can reveal information requirements that are not yet supported by resources.

RESULTS

The physiological WDA acted as a conceptual tool to model the exact processes and functions that clinicians must monitor and potentially support during the neonatal transition. Importantly, the clinical resources WDA revealed several capabilities and limitations of the physical objects in the work domain-ultimately revealing which physiological functions currently have no existing sensor to provide clinicians with information regarding their status.

CONCLUSION

We propose two potential approaches to improving the clinician's information environment: (1) developing new sensors for the information we lack, and (2) employing principles of ecological interface design to present currently available information to the clinician in a more effective way.

Oxygen for respiratory support of moderate and late preterm and term infants at birth: Is air best?

Oxygen has been used for newborn infant resuscitation for more than two centuries. In the last two decades, concerns about oxidative stress and injury have changed this practice. Air (FiO₂ 0.21) is now preferred as the starting point for respiratory support of infants 34 weeks gestation and above. These recommendations are derived from studies that were conducted on asphyxiated, term infants, recruited more than 10 years ago using strategies that are not commonly used today. The applicability of these recommendations to current practice, is uncertain. In addition, whether initiating respiratory support with air for infants with pulmonary disorders provides sufficient oxygenation is also unclear. This review will address these concerns and provide suggestions for future steps to address knowledge and practice gaps.

Delivery of positive end-expiratory pressure to preterm lambs using common resuscitation devices

BACKGROUND

In neonatal resuscitation, a ventilation device providing positive end-expiratory pressure (PEEP) is recommended. There is limited information about PEEP delivery in vivo, using different models of self-inflating bag (SIB) at different inflation rates and PEEP settings.

METHODS

We compared PEEP delivery to intubated preterm lambs using four commonly available models of paired SIBs and PEEP valves, with a T-piece, with gas flow of 8 L/min. Peak inspiratory pressure inflations of 30 cmH₂O, combined with set PEEP of 5, 7 and 10 cmH₂O, were delivered at rates of 20, 40 and 60/min. These combinations were repeated without gas flow. We measured mean PEEP, maximum and minimum PEEP, and its difference (PEEP reduction).

RESULTS

A total of 3288 inflations were analysed. The mean PEEP delivered by all SIBs was lower than set PEEP (P<0.001), although some differences were <0.5 cmH₂O. In 55% of combinations, the presence of gas flow resulted in increased PEEP delivery (range difference 0.3-2 cmH₂O). The mean PEEP was closer to set PEEP with faster inflation rates and higher set PEEPs. The mean (SD) PEEP reduction was 3.9 (1.6), 8.2 (1.8), 2 (0.6) and 1.1 (0.6) cmH₂O with the four SIBs, whereas it was 0.5 (0.2) cmH₂O with the T-piece.

CONCLUSIONS

PEEP delivery with SIBs depends on the set PEEP, inflation rate, device model and gas flow. At recommended inflation rates of 60/min, some devices can deliver PEEP close to the set level, although the reduction in PEEP makes some SIBs potentially less effective for lung recruitment than a T-piece.