A 16-month-old female experienced a massive carbamazepine ingestion resulting in a peak serum carbamazepine concentration of 55 microg/ml. Clinical manifestations included generalized seizures, coma, shock, and gastrointestinal hypomotility. Gut decontamination was attempted using multiple-dose activated charcoal and cathartics. Because of the severity of illness, charcoal hemoperfusion was initiated. The patient underwent three sessions of charcoal hemoperfusion, each utilizing a fresh cartridge, with one session immediately following the other. Serum carbamazepine and carbamazepine-10,11-epoxide concentrations decreased from 54 microg/ml to 23 microg/ml, and 30 microg/ml to 17 microg/ml, respectively, during charcoal hemoperfusion. There were no complications. The patient recovered completely and was discharged on the 4th hospital day. Charcoal hemoperfusion should be considered for life-threatening carbamazepine intoxication, especially when drug-induced gastrointestinal hypomotility prevents elimination via the gut.
Bivalirudin was effective and well-tolerated in these patients. Further studies should be conducted to better define safety and efficacy of bivalirudin in pediatric patients.
OBJECTIVE Medication errors involving intravenous medications continue to be a significant problem, particularly in the pediatric population due to the high rate of point-of-care and weight-adjusted dosing. The pharmaceutical algorithm computerized calculator (pac2) assists in converting physician medication orders to correct volumes and rates of administration for intravenous medications. This study was designed to assess the efficacy of the pac2 in simulated clinical scenarios of point-of-care dosing. Methods The study design was a within-subject controlled study in which 33 nurses from pediatrics, pediatric critical care, or critical care (mean nursing experience of 10.9 years) carried out various point-of-care medication-dosing scenarios with and without the aid of the pac2. RESULTS Use of the pac2 resulted in a significantly higher percentage (mean [95% CI]) of medication volumes calculated and drawn accurately (91% [87–95%] versus 61% [52–70%], p<0.0001), a higher percentage of correct recall of essential medication information (97% [95–99%] versus 45% [36–53%], p<0.0001), and better recognition of unsafe doses (93% [87–99%] versus 19% [12–27%], p<0.0001) as compared to usual practice. The pac2 also significantly reduced average medication calculation times (1.5 minutes [1.3–1.7 minutes] versus 1.9 minutes [1.6–2.2 minutes], p=0.0028) as compared to usual practice. CONCLUSIONS The pac2 significantly improved the performance of drug calculations by pediatric and critical care nurses during simulated clinical scenarios designed to mimic point-of-care dosing. These results suggest that the pac2 addresses an area of safety vulnerability for point-of-care dosing practices and could be a useful addition to a hospital's overall program to minimize medication errors.
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