Fifty-three critically ill infants and children received midazolam as sedation in a regional intensive care unit. Assessment of the level of sedation was carried out at regular intervals on withdrawal of midazolam. Forty-nine patients were fully alert within 4 h of midazolam being stopped. Four patients took from 6 h to 1 week to become fully alert. Four patients had abnormal behaviour highly suggestive of midazolam withdrawal. The onset of abnormal behaviour was within 12 h of discontinuation of midazolam. The duration of the abnormal behaviour ranged from 3 h to 1 week. One child had a paradoxical reaction to midazolam. The overall incidence of adverse effects to midazolam in the patients studied was 17%. No adverse effects were observed in infants; all adverse effects were observed in children. We have shown that it is possible to prospectively study the toxicity of sedatives in critically ill infants and children.
ObjectiveTo evaluate the prevalence, type and severity of prescribing errors observed between grades of prescriber, ward area, admission or discharge and type of medication prescribed.DesignWard-based clinical pharmacists prospectively documented prescribing errors at the point of clinically checking admission or discharge prescriptions. Error categories and severities were assigned at the point of data collection, and verified independently by the study team.SettingProspective study of nine diverse National Health Service hospitals in North West England, including teaching hospitals, district hospitals and specialist services for paediatrics, women and mental health.ResultsOf 4238 prescriptions evaluated, one or more error was observed in 1857 (43.8%) prescriptions, with a total of 3011 errors observed. Of these, 1264 (41.9%) were minor, 1629 (54.1%) were significant, 109 (3.6%) were serious and 9 (0.30%) were potentially life threatening. The majority of errors considered to be potentially lethal (n=9) were dosing errors (n=8), mostly relating to overdose (n=7). The rate of error was not significantly different between newly qualified doctors compared with junior, middle grade or senior doctors. Multivariable analyses revealed the strongest predictor of error was the number of items on a prescription (risk of error increased 14% for each additional item). We observed a high rate of error from medication omission, particularly among patients admitted acutely into hospital. Electronic prescribing systems could potentially have prevented up to a quarter of (but not all) errors.ConclusionsIn contrast to other studies, prescriber experience did not impact on overall error rate (although there were qualitative differences in error category). Given that multiple drug therapies are now the norm for many medical conditions, health systems should introduce and retain safeguards which detect and prevent error, in addition to continuing training and education, and migration to electronic prescribing systems.
The plasma clearance in children 3 years and older was higher than in infants and children up to 2 years old. There was considerable interindividual variation in the steady-state plasma concentrations of midazolam in critically ill infants and children.
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