Rationale: Saline is the intravenous fluid most commonly administered to critically ill adults, but it may be associated with acute kidney injury and death. Whether use of balanced crystalloids rather than saline affects patient outcomes remains unknown.Objectives: To pilot a cluster-randomized, multiple-crossover trial using software tools within the electronic health record to compare saline to balanced crystalloids.Methods: This was a cluster-randomized, multiple-crossover trial among 974 adults admitted to a tertiary medical intensive care unit from February 3, 2015 to May 31, 2015. The intravenous crystalloid used in the unit alternated monthly between saline (0.9% sodium chloride) and balanced crystalloids (lactated Ringer's solution or PlasmaLyte A). Enrollment, fluid delivery, and data collection were performed using software tools within the electronic health record. The primary outcome was the difference between study groups in the proportion of isotonic crystalloid administered that was saline. The secondary outcome was major adverse kidney events within 30 days (MAKE30), a composite of death, dialysis, or persistent renal dysfunction.Measurements and Main Results: Patients assigned to saline (n = 454) and balanced crystalloids (n = 520) were similar at baseline and received similar volumes of crystalloid by 30 days (median [interquartile range]: 1,424 ml [500-3,377] vs. 1,617 ml [500-3,628]; P = 0.40). Saline made up a larger proportion of the isotonic crystalloid given in the saline group than in the balanced crystalloid group (91% vs. 21%; P , 0.001). MAKE30 did not differ between groups (24.7% vs. 24.6%; P = 0.98).Conclusions: An electronic health record-embedded, clusterrandomized, multiple-crossover trial comparing saline with balanced crystalloids can produce well-balanced study groups and separation in crystalloid receipt.Clinical trial registered with www.clinicaltrials.gov (NCT 02345486).
The specificity of medication-related alerts must be improved to overcome the pernicious effects of alert fatigue. A systematic comparison of new drug orders to historical orders could improve alert specificity and relevance. Using historical order data from a computerized provider order entry system, we alerted physicians to atypical orders during the prescribing of five medications: calcium, clopidogrel, heparin, magnesium, and potassium. The percentage of atypical orders placed for these five medications decreased during the 92 days the alerts were active when compared to the same period in the previous year (from 0.81% to 0.53%; p=0.015). Some atypical orders were appropriate. Fifty of the 68 atypical order alerts were over-ridden (74%). However, the over-ride rate is misleading because 28 of the atypical medication orders (41%) were changed. Atypical order alerts were relatively few, identified problems with frequencies as well as doses, and had a higher specificity than dose check alerts.
BackgroundManagement of neonatal parenteral protein intake for preterm infants is challenging and requires daily modifications of the dose to account for the infant's postnatal age, birth weight, current weight, and the volume and protein concentration of concurrent enteral nutrition. The objective of this study was to create and evaluate the Parenteral Protein Calculator (PPC), a clinical decision support system to improve the accuracy of protein intake for preterm infants who require parenteral nutrition (PN).Materials and MethodsWe integrated the PPC into the computerized provider order entry system and tested it in a randomized controlled trial (routine or PPC). Infants were eligible if they were ≤3 days old, had a birth weight ≤1500 g, and had no inborn error of metabolism. The primary outcome was the appropriate total protein intake, defined as target protein dose ±0.5 g/kg.ResultsWe randomly allocated 42 infants for 221 PN days in the control group and 211 in the PPC group. Total protein intake in the PPC group was more accurate as compared with the control group (appropriate protein dosing: odds ratio = 5.8; 95% CI, 2.7–12.4). Absolute deviation from protein target was 0.41 g/kg (0.24–0.58) lower in the PPC group.ConclusionThe PPC improved appropriate protein dosing for premature infants receiving PN. Further studies are needed to test whether clinical decision support systems will reduce uremia and improve growth and to replicate similar findings in the cases of other PN nutrients.
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