Personalised recommendations for hospitalised patients with Acute Kidney Injury using a Kidney Action Team (KAT-AKI): protocol and early data of a randomised controlled trial.

INTRODUCTION: Although studies have examined the utility of clinical decision support tools in improving acute kidney injury (AKI) outcomes, no study has evaluated the effect of real-time, personalised AKI recommendations. This study aims to assess the impact of individualised AKI-specific recommendations delivered by trained clinicians and pharmacists immediately after AKI detection in hospitalised patients. METHODS AND ANALYSIS: KAT-AKI is a multicentre randomised investigator-blinded trial being conducted across eight hospitals at two major US hospital systems planning to enrol 4000 patients over 3 years (between 1 November 2021 and 1 November 2024). A real-time electronic AKI alert system informs a dedicated team composed of a physician and pharmacist who independently review the chart in real time, screen for eligibility and provide combined recommendations across the following domains: diagnostics, volume, potassium, acid-base and medications. Recommendations are delivered to the primary team in the alert arm or logged for future analysis in the usual care arm. The planned primary outcome is a composite of AKI progression, dialysis and mortality within 14 days from randomisation. A key secondary outcome is the percentage of recommendations implemented by the primary team within 24 hours from randomisation. The study has enrolled 500 individuals over 8.5 months. Two-thirds were on a medical floor at the time of the alert and 17.8% were in an intensive care unit. Virtually all participants were recommended for at least one diagnostic intervention. More than half (51.6%) had recommendations to discontinue or dose-adjust a medication. The median time from AKI alert to randomisation was 28 (IQR 15.8-51.5) min. ETHICS AND DISSEMINATION: The study was approved by the ethics committee of each study site (Yale University and Johns Hopkins institutional review board (IRB) and a central IRB (BRANY, Biomedical Research Alliance of New York). We are committed to open dissemination of the data through clinicaltrials.gov and sharing of data on an open repository as well as publication in a peer-reviewed journal on completion. TRIAL REGISTRATION NUMBER: NCT04040296.

Impact of Anticipatory Batching of Pharmacy Compounded Sterile Products on Time to Nurse Administration.

BACKGROUND: Timely medication administration is integral to patient care, and operational delays can challenge timely administration. Within an inpatient pharmacy of an academic medical center, intravenous medications were historically compounded on a patient-specific basis. In 2020, the pharmacy began batching frequently-utilized medications. This analysis explored the impact of compounded sterile batching on pharmacy and nursing services. METHODS: This pre- and post-interventional study compared data from February through March 2020 with a seasonally matched period from 2019. The primary endpoint was difference in time to administration of urgent (STAT) medications. Secondary endpoints included timeframes for a pharmacy technician to prepare, a pharmacist to check, and a nurse to administer the medications, as well as reprinted labels and estimated waste. RESULTS: On average, it took one hour and 43 minutes to administer a STAT medication in 2019 and one hour and 57 minutes in 2020 (p = 0.122). It took about four hours to administer routine medications in 2019 and 2020 (p = 0.488). The number of labels reprinted decreased from 616 in 2019 to 549 in 2020 (p = 0.195), relating to decreased missing doses. The mean time to check and send a medication decreased from 2019 to 2020 for STAT orders (p < 0.001), and there was no difference in wasted medications looking at all orders in this time. CONCLUSION: Anticipatory batching decreased time to prepare, check, and send medications, though there was no effect on waste or on time to administration. Future studies can examine the correlation between pharmacy operations and medication administration.