Background: High-quality chest compression is essential during neonatal cardiopulmonary resuscitation (CPR). However, the optimal compression to ventilation ratio (C:V) that should be used during neonatal CPR to optimize coronary and cerebral perfusion while providing adequate ventilation remains unknown. Objective: We hypothesized that different C:V ratios (e.g., 2: 1 or 4: 1) will reduce the time to return of spontaneous circulation (ROSC) in severely asphyxiated piglets. Methods: Thirty-one newborn piglets (1–4 days old) were anesthetized, intubated, instrumented, and exposed to 50-min normocapnic hypoxia followed by asphyxia. Piglets were randomized into 4 groups: 2: 1 (n = 8), 3: 1 (n = 8), 4: 1 (n = 8) C:V ratio, or a sham group (n = 7). Cardiac function, carotid blood flow, cerebral oxygenation, and respiratory parameters were continuously recorded throughout the experiment. Results: Thirty-one piglets were included in the study, and there was no difference in the duration of asphyxia or the degree of asphyxiation (as indicated by pH, PaCO2, and lactate) among the different groups. The median (IQR) time to ROSC was similar between the groups with 127 (82–210), 96 (88–126), and 119 (83–256) s in the 2: 1, 3: 1, and 4: 1 C:V ratio groups, respectively (p = 0.67 between groups). Similarly, there was no difference in 100% oxygen requirement or epinephrine administration between the experimental groups. Conclusions: Different C:V ratios resulted in similar ROSC, mortality, oxygen, and epinephrine administration during resuscitation in a porcine model of neonatal asphyxia.
Clinicians should be aware of the potential inaccuracy of ECG assessment during asphyxia in newborn infants and should rather rely on assessment using a combination of auscultation, palpation, pulse oximetry and ECG.
ObjectiveTo determine whether different chest compression (CC) rates during continuous CC with asynchronous ventilations (CCaV) reduce time to return of spontaneous circulation (ROSC) and improved haemodynamic recovery in piglets aged 24–72 hours with asphyxia-induced asystole.MethodsThirty piglets (aged 24–72 hours) were anaesthetised, intubated, instrumented and exposed to 30 min normocapnic hypoxia followed by asphyxia. Piglets were randomised into four groups: CCaV with CC rate of 90 (CCaV+90, n=8), 100 (CCaV+100, n=8) or 120 compressions per minute (CCaV+120, n=8), and a sham-operated group (n=6). Cardiac function, carotid blood flow, cerebral and renal oxygenation and respiratory parameters were continuously recorded. Cerebral cortical tissue was harvested and assayed for inflammatory and injury markers.ResultsAll three intervention groups had a similar number of piglets achieving ROSC (6/8, 5/8 and 5/8 for CCaV+120, CCaV+100 and CCaV+90, respectively) and mean ROSC time (120, 90 and 90 s for CCaV+120, CCaV+100 and CCaV+90, respectively). The haemodynamic recovery (indicated by carotid flow, cerebral and renal perfusion) was similar between CCaV+120 and sham by the end of experiment. In comparison, CCaV+90 and CCaV+100 had significantly reduced haemodynamic recovery compared with sham operated (p≤0.05). Inflammatory (interleukin [IL]-6 and IL-1β) and injury markers (lactate) were significantly higher in the frontoparietal cortex of CCaV+90 and CCaV+100 compared with sham, whereas brain injury markers were similar between CCaV+120 and sham.ConclusionsAlthough there was no difference between the groups in achieving ROSC, the haemodynamic recovery of CCaV+120 was significantly improved compared with CCaV+90 and CCaV+100, which were also associated with higher cerebral inflammatory and brain injury markers.
BACKGROUND The current Pediatric Advanced Life Support guidelines recommends that newborns who require cardiopulmonary resuscitation (CPR) in settings (e.g., prehospital, Emergency department, or paediatric intensive care unit, etc.) should receive continuous chest compressions with asynchronous ventilations (CCaV) if an advanced airway is in place. However, this has never been examined in a newborn model of neonatal asphyxia. OBJECTIVES To determine if CCaV at rates of 90/min or 120/min compared to current standard of 100/min will reduce the time to return of spontaneous circulation (ROSC) in a porcine model of neonatal resuscitation. DESIGN/METHODS Term newborn piglets were anesthetized, intubated, instrumented, and exposed to 40-min normocapnic hypoxia followed by asphyxia, which was achieved by clamping the endotracheal tube until asystole. Piglets were randomized into 3 CCaV groups: chest compression (CC) at a rate of 90/min (CCaV 90,n=7), of 100/min (CCaV 100,n=7), of 120/min (CCaV 120,n=7), or sham-operated group. A two-step randomization process with sequentially numbered, sealed brown envelope was used to reduce selection bias. After surgical instrumentation and stabilization an envelope containing the allocation “sham” or “intervention” was opened (step one). The sham-operated group had the same surgical protocol, stabilization, and equivalent experimental periods without hypoxia and asphyxia. Only piglets randomized to “intervention” underwent hypoxia and asphyxia. Once the criteria for CPR were met, a second envelope containing the group allocations was opened (step two). Cardiac function, carotid blood flow, cerebral oxygenation, and respiratory parameters were continuously recorded throughout the experiment. RESULTS The mean (±SD) duration of asphyxia was similar between the groups with 260 (±133)sec, 336 (±217)sec, and 231 (±174)sec for CCav 90, CCaV 100, and CCaV 120, respectively (p=1.000; oneway ANOVA with Bonferroni post-test). The mean (SD) time to ROSC was also similar between groups 342 (±345)sec, 312 (±316)sec, and 309 (±287)sec for CCav 90, CCaV 100, and CCaV 120, respectively (p=1.000; oneway ANOVA with Bonferroni post-test). Overall, 5/7 in the CCaV 90, 5/7 in CCaV 100, and 5/7 in the CCaV 120 survived. CONCLUSION There was no significant difference in time to ROSC for either chest compression technique during cardiopulmonary resuscitation in a porcine model of neonatal asphyxia.
BACKGROUND Recent neonatal resuscitation guidelines have suggested the potential benefit of introducing Electrocardiography (ECG) to monitor neonatal heart rate (HR) as standard of care for newborns receiving respiratory support in the delivery room due to advantages over auscultation. OBJECTIVES To assess effectiveness of HR detection using either ECG or auscultation. DESIGN/METHODS We reviewed recordings from our piglet neonatal resuscitations to compare an ECG with auscultation for assessing the detection of HR at cardiac arrest. Term newborn piglets (n=41) were anesthetized, intubated, instrumented, and exposed to 40-min normocapnic hypoxia followed by asphyxia, which was achieved by clamping the endotracheal tube until asystole. Asystole was confirmed by using Electrocardiography and auscultation. RESULTS The median (±IQR) duration of asphyxia was 318 (200–560)sec. In 41 piglets both auscultation and ECG HR were assessed. In 11 (27%) cases both auscultation and ECG correctly identified a bradycardic HR (mean (SD) 32(14)/min) at the beginning of chest compression. In 11 (27%) cases both auscultation and ECG correctly identified absent of any HR. However, in 19 (46%) cases auscultation did not detect a HR while ECG did detect a HR. Overall, the Positive Predictive Value was 37%, Negative Predictive Value was 100%, Sensitivity was 100%, and Specificity was 37% for the ECG to display accurate HR during asphyxia in newborn piglets. CONCLUSION Our data illustrates the need for caution in the routine use of ECG monitoring for all neonatal who might need advanced resuscitation in the deliver room.
BACKGROUND Current resuscitation guidelines recommend 3:1 C:V ratio, however the most effective C:V ratio in newborns remains controversial. We recently demonstrate that combining chest compressions (CC) with a sustained inflation (SI) (=CC+SI) significantly improves return of spontaneous circulation (ROSC) in asphyxiated newborn piglets compared to 3:1 C:V resuscitation. However, the optimal length of SI during CC+SI is unknown. OBJECTIVES To examine if a 60sec SI compared to a 20sec SI or 3:1 C:V will reduce will reduces ROSC during resuscitation in asphyxiated newborn piglets. DESIGN/METHODS Cardiac arrest with achieved was induced in newborn piglets and then randomized to receive either “3:1 C:V ratio, SI+CC-20sec” or “SS+CC-60sec”. Piglets randomized to “SI+CC+20sec” or “SI+CC+60sec” received 90/min CC during a SI of 20sec or 60sec. Piglets randomized to 3:1 C:V received 90/min CC and 30 inflations/min. The default settings for airway pressures were peak inflation pressure of 30 cm H2O and a positive end expiratory pressure of 6 cm H2O. The primary outcome was duration of CC to achieve ROSC. RESULTS Eight piglets were randomized to each group; the mean (SD) age and weight was similar between groups. Median (IQR) ROSC was significantly shorter in the SI+CC-20sec and SI+CC-60sec group with 96 (68–168) sec and 78 (60–91) sec compared to the 3:1 C:V group with 235 (182–347)sec (p=0.002). 5/8 in the SI+CC-60sec group, 7/8 in the SI+CC-20sec and 8/8 in the 3:1 C:V group received epinephrine (p=0.82). CONCLUSION Lengths of SI during CC+SI does not affect ROSC, however CC+SI compared to 3:1 C:V does improve ROSC in newborn piglets.
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