Among hospitalized children at our institution, combination therapy with vancomycin and TZP was associated with an incidence of AKI higher than that associated with vancomycin and cefepime.
The hospital-wide standardization of a pediatric asthma CPG across hospital units can safely reduce overall hospital resource intensity by reducing LOS, admissions, ICU services, and charges.
Management of infections in patients with cystic fibrosis (CF) presents challenges for healthcare providers, including the eradication of initial acquisition, treatment of acute exacerbations, and chronic infection with suppressive therapy. Inhaled antimicrobial therapy for infections in patients with CF has been used in these capacities, often in an effort to achieve optimal concentrations in sputum for antimicrobial efficacy while mitigating potential toxicities associated with systemic therapy. Unfortunately, there are few commercially available products formulated for inhalation, resulting in the off‐label use of other formulations, such as intravenous products, administered via nebulization. This review aims to examine the evidence supporting the efficacy of these off‐label formulations for management of acute and chronic infections associated with CF, as well as adverse effects associated with their use.
This continuing feature describes the clinical pharmacy support tools and services that are provided by the computerized provider order entry (CPOE) system at Vanderbilt University Medical Center (VUMC) — with an emphasis on pediatrics. The authors focus on the development and maintenance of decision support tools created specifically for use in the pediatric population.
BACKGROUND
Penicillin allergy labels are often inaccurate in children and removing unnecessary labels results in improved outcomes and lower health care costs. Although the hospital setting is a frequent point of contact for children, strategies to evaluate penicillin allergies in the hospital are lacking.
METHODS
We performed a prospective pilot study to determine the feasibility of a centralized, pharmacy-led approach to penicillin allergy evaluation. Children with a reported history of penicillin allergy admitted to our children’s hospital were risk-stratified and those stratified as low-risk underwent a single-dose oral challenge by a central pharmacist, regardless of the need for antibiotics. After the completion of each patient’s delabeling process, surveys were distributed to health care personnel involved in the patient’s care to collect perceptions on the acceptability, appropriateness, and feasibility of this intervention. Measures were scored by using a 5-point Likert scale.
RESULTS
Of the 23 patients who screened as low-risk, 20 underwent a penicillin allergy evaluation and an oral challenge. Of these, the penicillin allergy label was removed in 19 (95%) patients (Fig 1). The median age was 7 years (range 11 months–18 years). Participants rated the risk stratification and delabeling favorably overall, with high ratings on all 3 implementation measures: acceptability (mean 4.55, ± standard deviation [STD] 0.65), appropriateness (mean 4.58, STD ± 0.6), and feasibility (mean 4.51, STD ± 0.73). Measures of acceptability, appropriateness, and feasibility remained high when stratified by health care worker type and provider type.
CONCLUSIONS
Our findings provide support for systemic implementation of penicillin allergy delabeling strategies in hospitalized children.
OBJECTIVES Patient morbidity and mortality associated with contaminated and improperly prepared sterile products has captured national attention. In response, both the United States Pharmacopeia (USP) and Centers for Disease Control (CDC) have published recommendations in an effort to minimize the risk of infection. While the CDC recommends that administration sets are not changed more frequently than every 72 hours, the USP recommends a maximum beyond use date of 48 hours. Neither organization provides specific guidance on expiration dating once the intravenous drug is dispensed. Likewise, neither addresses the length of time that a bag containing medication for continuous infusion may hang once administration to the patient has begun. We evaluated the sterility of medications that are commonly administered by continuous infusion to pediatric patients. Because frequent manipulation of infusion and administration sets may predispose the patient to adverse events, we evaluated sterility for extended beyond use dating up to 72 hours.
METHODS Thirty-five common intravenous (IV) continuous infusions using 94 standard concentrations and diluents were identified. IV solutions were mixed using sterile technique in the laminar flow hood in accordance with USP guidelines. Medications were excluded for short stability, short durations of use or high cost. A sample from each solution was tested for contamination or bacterial growth at 72 hours. Any visible discoloration suggesting physical instability was also evaluated.
RESULTS None of the syringes or chambers resulted in contamination, bacterial growth or discoloration after 72 hours.
CONCLUSIONS This study provides sufficient data that these compounded sterile products may be stored using a beyond use date up to 72 hours for a number of commonly used continuous IV infusions in pediatric patients. In our institution, this allows for a more convenient and consistent change of both administration sets and continuous infusions at 72 hours to potentially minimize adverse events, workload and cost.
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