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OBJECTIVE: Intensive care unit delirium is an increasingly recognized problem in pediatric patients. Controversy exists regarding the safety and efficacy of antipsychotic medications for this indication. The objective of this study was to determine the incidence of and risk factors for QTc interval prolongation in pediatric patients treated with antipsychotics for ICU delirium. METHODS: Retrospective chart review of pediatric patients admitted to the pediatric ICU or pediatric cardiac ICU and diagnosed with ICU delirium between October 1, 2014, and October 31, 2015. Patients were included if they received at least 1 dose of an antipsychotic for the treatment of delirium after a positive screen using the Cornell Assessment of Pediatric Delirium scoring tool. RESULTS: For the 26 patients included, the median change in QTc interval on treatment was -4 msecs. Two patients (8%) had QTc interval prolongation while on antipsychotic therapy. No risk factors were identified in these 2 patients that put them at increased risk for QTc interval prolongation. CONCLUSIONS: The incidence of QTc interval prolongation in pediatric patients who were treated with antipsychotics for ICU delirium was low. There is need for future research to determine which pediatric patients are at risk for QTc interval prolongation when antipsychotic medications are used for the treatment of ICU delirium.
RESUMO
OBJECTIVES: To determine whether dedicated pharmacy services improve the rate of electrocardiogram (ECG) monitoring in patients at risk for medication-induced QTc interval prolongation. In addition, determine how pediatric institutions currently monitor patients at risk for medication-induced QTc interval prolongation. METHODS: A pharmacist-driven monitoring protocol to detect medication-induced QTc interval prolongation was developed using published literature. If patients were prescribed 3 or more medications known to prolong the QTc interval, they were recommended to have a baseline ECG to assess the QTc interval. If 3 or more QTc interval-prolonging medications were administered for 5 or more days, a follow-up ECG was recommended. Patients prescribed medications known to prolong the QTc interval were identified. Prior to pharmacist intervention, electronic medical records were reviewed to determine if baseline and follow-up ECGs were obtained in patients meeting criteria for monitoring. A dedicated pharmacist then prospectively reviewed charts and recommended monitoring. The rate of monitoring during the intervention and baseline period was compared. To determine current practice at pediatric institutions, a survey was distributed to pharmacists. RESULTS: Pharmacist intervention improved the rate of ECG monitoring in patients at risk for medication-induced QTc interval prolongation from 47.8% to 100% (p = 0.0009). Of the 55 survey participants, 6 stated their institution had QTc interval monitoring procedures in place, 35 did not have any, and 3 had procedures in process. CONCLUSIONS: Targeted pharmacist intervention improved the rate of ECG monitoring in patients at risk for medication-induced prolonged QTc interval. Our research and survey data reveal that institutions could benefit from targeted pharmacist intervention to monitor patients for medication-induced QTc interval prolongation.
