Surgery Clinical Trial
Official title:
Effects of Morphine and Midazolam on Sleep-wake Cycling in Amplitude-integrated Electroencephalography in Post-surgical Neonates > 32 Weeks' Gestational Age
Objectives: Sleep characteristics have been used for prediction of neuro-developmental
outcome. The aim of our study was to evaluate the influence of morphine and midazolam on the
development of SWC in newborns > 32 weeks' gestational age after major non-cardiac surgery.
Study design: This prospective aEEG study included infants > 32+0 weeks' gestation admitted
to the Neonatal Intensive Care Unit at The Royal Children's Hospital in Melbourne who were
undergoing major non-cardiac surgery. The BrainZ Monitor (BRM2, Version 8.0, BrainZ
Instruments, New Zealand) was applied post-operatively. The time of onset and quality of SWC
and the maximum levels of morphine and midazolam as predictors of time to SWC were then
assessed.
Results: Forty-seven eligible infants were included. Emergence of SWC was observed at a mean
of 13 hours post-surgery. The maximum dose of morphine or midazolam was not predictive of
time to SWC.
Conclusions: Despite high doses of continuous infusions of morphine and midazolam SWC was
observed on aEEG in neonates > 32 weeks' gestational age soon after major non-cardiac
surgery. The main type of aEEG background pattern was not affected by the maximum dose of
either morphine or midazolam. Abnormalities in aEEG in post-surgical patients are not always
drug related.
There is increasing evidence of neurodevelopmental impairment in survivors of non-cardiac
surgery (1,2,3,4). Psychosocial maldevelopment and emotional problems have been reported to
occur more commonly in children with repaired abdominal wall defects, and routine assessment
of survivors of non-cardiac surgery has been recommended throughout later childhood (5,6).
These reports also emphasize the need for further study of children who undergo major
non-cardiac surgery in the neonatal period so that the neurological substrate for subsequent
abnormal neurodevelopment can be better understood.
Amplitude-integrated electroencephalography (aEEG) is being increasingly used to monitor
cerebral activity at the bedside in the neonatal intensive care unit (NICU) (7). Widely used
scoring systems for aEEG incorporate consideration of background activity, presence of sleep
wake cycling (SWC) and seizures (8). There are several aEEG reports indicating that
analgesic and sedative agents routinely used in neonates suppress amplitude and therefore
alter background activity (9,10,11,12,13) and it is believed that interpretation of aEEG in
sedated patients is unreliable. Most of these studies have been conducted investigating
pre-term infants or infants with hypoxic-ischaemic encephalopathy.
Sleep characteristics have been reported as predictors of neurodevelopmental outcome
(14,15,16) and there is general agreement that indices of stability in SWC over time are
positively correlated with improved clinical outcomes. SWC is described as smooth sinusoidal
variations, mostly in the minimum amplitude. Phases with broader bandwidth represent
discontinuous background activity during quiet sleep, whilst the phases with narrower
bandwidth correspond to the more continuous activity during wakefulness and active sleep.
SWC develops with increasing maturation of the child. From 31 to 32 weeks' gestational age,
quiet sleep periods are clearly discernable in the aEEG trace as distinct periods with
increased bandwidth. At term-equivalent age these periods represent trace alternant
electroencephalography (EEG) patterns (17). The average duration of quiet sleep periods is
24 to 28 minutes for infants between 32 and 36 weeks' gestational age. These periods are
slightly longer at night but are otherwise relatively stable and are not affected by
incubator covers or developmental care interventions (18). The internal trigger for SWC is
located in the brainstem and the presence of SWC in healthy term newborns is considered a
sign of brain stem integrity (19,20). In newborns with hypoxic-ischemic encephalopathy sleep
organization can be altered and the presence of SWC on aEEG is considered to be a good
prognostic sign (21). Timing of onset of SWC has been shown to predict neurodevelopmental
outcome based on whether the SWC returns before or after 36 hours of a presumed hypoxic
insult (22).
There are several reports indicating that analgesic and sedative agents routinely used in
neonates may lead to amplitude depression on aEEG. However, to our knowledge there are
currently no reports of aEEG studies and SWC in newborn infants requiring major non-cardiac
surgery during the neonatal period. Studying background activity and emergence of SWC on
aEEG in neonates requiring major non-cardiac surgery may provide useful information about
the relationship of analgesia and sedation and cerebral function in the post-operative
infant. Knowledge of the effects of drugs that may modify cerebral activity is important to
the interpretation of aEEG's in critically ill neonates requiring high doses of analgesics
and sedatives.
The aim of this prospective observational aEEG study was to describe the influence of
analgesic and sedative medication on background pattern and the development of SWC in
newborn infants born > 32 weeks' gestation after major non-cardiac surgery.
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