Corrective ventilation strategies in delivery room resuscitation of preterm infants.

AIM: Corrective ventilation strategies (CVS) during neonatal resuscitation and stabilisation (R&S) are taught through the MRSOPA mnemonic: Mask adjustment, Repositioning airway, Suctioning, Opening the mouth, Increasing inspiratory Pressure, and Alternative airway. The aim was to examine the use of CVS and to investigate the relationship between MRSOPA strategies and intubation of very preterm infants <32 weeks' gestation in the delivery room. METHODS: Retrospective review of video recordings of R&S of preterm infants born in Cork University Maternity Hospital, Ireland. RESULTS: In 46 resuscitation recordings, mask adjustment was observed in almost all (95.6%), followed by suctioning, (23.9%), opening the mouth (100%), increasing inspiratory pressure (81.0%) and intubation (32.6%). The most frequently used mask holds were: one-handed (95.6%), two-handed (63.0%), stem hold (23.8%), and modified spider hold (6.5%). There were no significant associations between individual mask holds and intubation. The more CVS employed the greater the need for intubation. CONCLUSION: The greater the number of MRSOPA strategies used in the delivery room, the more likely intubation occurred. Further studies may identify the effect of these CVS on short- and long-term outcomes, in order to enhance R&S training and clinical practice.

A Randomized Controlled Trial of End-Tidal Carbon Dioxide Detection of Preterm Infants in the Delivery Room.

OBJECTIVE: To compare the ability of qualitative versus quantitative methods of end-tidal carbon dioxide (EtCO2) detection to maintain normocarbia during face mask ventilation (FMV) of preterm infants (<32 weeks) in the delivery room. STUDY DESIGN: Preterm infants <32 weeks were randomly assigned to the use of a disposable PediCap EtCO2 detector (Covidien, Dublin, Ireland) (qualitative) or a Microstream side stream capnography device (Covidien) (quantitative) for FMV in the delivery room, via a NeoPuff T-piece resuscitator (Fisher and Paykel, Auckland, New Zealand). The primary outcome was the presence of normocarbia, based on partial pressure of CO2 (PaCO2) readings obtained in the neonatal intensive care unit within an hour of birth. Normocarbia was defined as a PaCO2 measure between 37.5 and 60 mm Hg (5-8 kPa). RESULTS: Of the 59 infants included, 59% (35/59) were within the PaCO2 target range within an hour of birth. There was no difference in the primary outcome; 64% (21/33) of infants in the quantitative group were within the PaCO2 range compared with 54% (14/26) in the qualitative group (P = .594); and 93% of participants <28 weeks' gestation were within the PaCO2 normocarbic range (90% [9/10] in quantitative group and 100% [5/5] in the qualitative group [P = 1]). There was no difference in the intubation rate, days of ventilation, or bronchopulmonary dysplasia rates between the 2 groups. CONCLUSIONS: Quantitative or qualitative EtCO2 detection methods are both feasible for FMV in the delivery room. Although there was no difference in the incidence of normocarbia, the use of either form of EtCO2 monitoring should be considered during newborn stabilization, especially in infants less than 28 weeks' gestation. TRIAL REGISTRATION: ISRCTN: ISRCTN10934870.

End user bag-mask ability and perceptions of two infant resuscitation mannequins.

AIM: To examine user ability and preference in performing bag-mask ventilation (BMV) with four different configurations of infant mannequins. METHODS: Participants provided a 30-second period of BMV to a Resusci Baby mannequin (RB), NeoNatalie mannequin (NN), NN filled with air (NNA), NN filled with water (NNW) and NN filled with 50% air and 50% water mix (NNAW). Participants rated the fidelity of each configuration. RESULTS: Of the 20 participants, 65% rated NNW as having a high level of fidelity (HLF) 'to hold' (50% for NNAW, 10% for RB and 0% for NNA) (p < 0.001). Half rated NNAW as having a HLF in 'tone' (40% for NNW, 20% for RB and 5% for NNA) (p = 0.008). About 45% of participants rated NNAW as having a HLF in 'appearance' (45% for the RB, 20% for NNA and 15% for NNW) (p = 0.035). About 35% of participants rated NNAW as having a HLF in how it 'felt to touch' (30% for NNW, 15% for RB and 10% for NNA) (p = 0.008). Half of participants rated NNAW as having a HLF in terms of 'weight' (45% for NNW, 40% for RB and 0% for NNA) (p = 0.003). Participants delivered the greatest number of effective ventilations to the NNW mannequin. CONCLUSION: The NNW and NNAW configurations had the highest fidelity and had the highest percentage of effective ventilations delivered.

Delivery room end tidal CO2 monitoring in preterm infants <32†weeks.

OBJECTIVES: To determine the feasibility of end tidal (EtCO2) monitoring of preterm infants in the delivery room, to determine EtCO2 levels during delivery room stabilisation, and to examine the incidence of normocapnia (5-8 kPa) on admission to the neonatal intensive care unit in the EtCO2 monitored group compared with a historical cohort without EtCO2 monitoring. PATIENTS AND METHODS: Preterm infants (<32 weeks) were eligible for inclusion in this observational study. The evolution of EtCO2 values immediately after delivery was assessed and linear least-squares methods were used to fit a line to EtCO2 recordings. The partial pressure of CO2 in blood (PCO2) from the infants who received EtCO2 monitoring was compared with a historical cohort without EtCO2 monitoring. RESULTS: EtCO2 monitoring was feasible in the delivery room. EtCO2 values were successfully obtained in 39 (88.7%) of the 44 infants included in the study. EtCO2 gradually increased over the first 4 min. Intubated infants had higher EtCO2 values compared with infants who were not intubated, with median (IQR) values of 4.7 (3.3-8.4) kPa versus 3.2 (2.6-4.2) kPa (p=0.05). No difference was found between the proportions of PCO2 values within the range of normocapnia among infants who received EtCO2 monitoring compared with those who did not (56.8% vs 47.9%, p=0.396). CONCLUSIONS: Delivery room EtCO2 monitoring is feasible and safe. EtCO2 values obtained after birth reflect the establishment of functional residual capacity and effective ventilation. The potential short-term and long-term consequences of EtCO2 monitoring should be established in randomised controlled trials.

Effects of Fractional Inspired Oxygen on Cerebral Oxygenation in Preterm Infants following Delivery.

OBJECTIVES: To explore regional cerebral oxygen saturations (rcSO2) in preterm neonates initially stabilized with 0.3 fractionated inspired oxygen (FiO2) concentrations. We hypothesized that those infants who received >0.3 FiO2 during stabilization following delivery would have relatively higher rcSO2 postdelivery compared with those stabilized with a lower FiO2. STUDY DESIGN: A single center prospective observational study of 47 infants born before 32 weeks. Using near infrared spectroscopy, rcSO2 values were recorded immediately after birth. All preterm infants were initially given 0.3 FiO2 and were divided into 2 groups according to subsequent FiO2 requirements of either ≤0.3 or >0.3 FiO2. Using a mixed-effects model, we compared the difference between the groups over time. Also, the area measures below 55% (hypoxia) and above 85% (hyperoxia) were compared between the groups. RESULTS: The mean (SD) gestation was 29.4 (1.6) weeks and the mean (SD) weight was 1.3 (0.4) kg. Less than one-half of the infants (20/45; 43%) required ≤0.3 FiO2. In the delivery suite, the median (IQR) rcSO2 in the low and high FiO2 groups were 81% (66%-86%) and 72% (62%-86%), respectively. Patients in the high FiO2 group had a larger rcSO2 area below 55% (P = .01). There was a significant difference in rcSO2 between the groups (P < .05), with the low group having higher rcSO2 values initially, but this difference changed over time. In the neonatal intensive care unit (NICU), rcSO2 values were lower by 7.1% (CI 12.13 to 2.06%) P = .008 in the high FiO2 group. CONCLUSIONS: Infants given >0.3 FiO2 had more cerebral hypoxia than infants requiring ≤0.3 FiO2 but no difference in the degree of cerebral hyperoxia, both in the delivery suite and the NICU. This suggests that a more rapid increase in oxygen titration maybe be required initially for preterm infants.

Randomised controlled trial of a mobile phone infant resuscitation guide.

AIM: The aim of this study was to develop a mobile phone resuscitation guide (MPRG) and to evaluate its use during simulated resuscitation of a mannequin. METHODS: An MPRG was developed using EpiSurveyor. A randomised controlled trial was performed in school-going children aged 15-16 years. All subjects were taught infant CPR skills using the American Heart Association Infant CPR Anytime. Two weeks later, the students were randomised to use of MPRG or not, and their CPR skills were re-assessed. The assessment was conducted using previously validated checklists. RESULTS: Twenty-one students participated in this trial. The MPRG group performed notably better in the areas of calling emergency services (80% vs. 36.4%, P = 0.044), completing sufficient CPR cycles (90% vs. 45.5%, P = 0.047) and following the correct CPR sequence (60% vs. 9.1%, P = 0.013). No difference in resuscitation skills of participants was observed. CONCLUSIONS: We have shown that participants were more likely to call emergency services if they were using the MPRG. Further trials are needed to investigate the utility of mobile phone guides and whether or not they can reduce the time taken to contact emergency services as well as if they can sustain correct CPR sequence in an in-vivo setting.

Perceptions of webcams in the neonatal intensive care unit: here's looking at you kid!

INTRODUCTION: Many tertiary neonatal units employ a restricted visiting policy. Webcams have previously been implemented in the neonatal unit setting in several countries. OBJECTIVES: This study aims to determine the views from parents, physicians, and nursing staff before implementation of a webcam system. METHODS: A questionnaire-based study. RESULTS: There were 101 responses. Parental computer usage was 83%. The majority of parents indicated that they would use the webcam system. Parents felt that a webcam system would reduce stress. Members of the nursing staff were most concerned about privacy risks (68%), compared with parents who were confident in the security of these systems (92%, p-value < 0.001). Seventy two percent of nurses felt that a webcam system would increase the stress levels of staff as compared with less than 20% of the physicians (p-value < 0.001). DISCUSSION: The majority of parents who completed the questionnaire have positive attitudes toward implementation of a webcam system in the NICU. Education of health care staff is required before implementation.