Samih Raad1, Rachel Elliott2, Evan Dickerson3, Babar Khan4, Khalil Diab4. 1. 1 Department of Internal Medicine, Indiana University School of Medicine, Indianapolis, IN, USA. 2. 2 MICU nurse, IU Health University Hospital, Indianapolis, IN, USA. 3. 3 Clinical Innovation and Efficiency, Financial Planning and Analysis, Indiana University Health, Indianapolis, IN, USA. 4. 4 Division of Pulmonary, Critical Care, Sleep, and Occupational Medicine, Department of Internal Medicine, Indiana University School of Medicine, Indianapolis, IN, USA.
Abstract
OBJECTIVE: In our academic intensive care unit (ICU), there is excess ordering of routine laboratory tests. This is partially due to a lack of transparency of laboratory-processing costs and to the admission order plans that favor daily laboratory test orders. We hypothesized that a program that involves physician and staff education and alters the current ICU order sets will lead to a sustained decrease in routine laboratory test ordering. DESIGN: Prospective cohort study. SETTING: Academic closed medical ICU (MICU). PATIENTS: All patients admitted to the MICU. METHODS: We consistently educated residents, faculty, and staff about laboratory test costs. We removed the daily laboratory test option from the admission order sets and asked residents to order needed laboratory test results every day. We only allowed the G3+I-STAT (arterial blood gas only) cartridges in the MICU in hopes of decreasing duplicative laboratory test results. We added laboratory review to the daily rounding checklist. MEASUREMENT AND MAIN RESULTS: Total number of laboratory tests per patient-day decreased from 39.43 to an average of 26.74 ( P <.001) over a 9-month period. The number of iSTAT laboratory tests per patient-day decreased from 7.37 to an average of 1.16 ( P < .001) over the same time period. The number of iSTAT/central laboratory processing duplicative laboratory tests per patient-day decreased from 0.17 to an average of 0.01 ( P < .001). The percentage of patients who have daily laboratory test orders decreased from 100% to an average of 11.94% ( P <. 001). US$123 436 in direct savings and US$258 035 dollars in indirect savings could be achieved with these trends. Intensive care unit morbidity and mortality were not impacted. CONCLUSION: A simple technique of resident, nursing, and ancillary staff education, combined with alterations in order sets using electronic medical records, can lead to a sustained reduction in laboratory test utilization over time and to significant cost savings without affecting patient safety.
OBJECTIVE: In our academic intensive care unit (ICU), there is excess ordering of routine laboratory tests. This is partially due to a lack of transparency of laboratory-processing costs and to the admission order plans that favor daily laboratory test orders. We hypothesized that a program that involves physician and staff education and alters the current ICU order sets will lead to a sustained decrease in routine laboratory test ordering. DESIGN: Prospective cohort study. SETTING: Academic closed medical ICU (MICU). PATIENTS: All patients admitted to the MICU. METHODS: We consistently educated residents, faculty, and staff about laboratory test costs. We removed the daily laboratory test option from the admission order sets and asked residents to order needed laboratory test results every day. We only allowed the G3+I-STAT (arterial blood gas only) cartridges in the MICU in hopes of decreasing duplicative laboratory test results. We added laboratory review to the daily rounding checklist. MEASUREMENT AND MAIN RESULTS: Total number of laboratory tests per patient-day decreased from 39.43 to an average of 26.74 ( P <.001) over a 9-month period. The number of iSTAT laboratory tests per patient-day decreased from 7.37 to an average of 1.16 ( P < .001) over the same time period. The number of iSTAT/central laboratory processing duplicative laboratory tests per patient-day decreased from 0.17 to an average of 0.01 ( P < .001). The percentage of patients who have daily laboratory test orders decreased from 100% to an average of 11.94% ( P <. 001). US$123 436 in direct savings and US$258 035 dollars in indirect savings could be achieved with these trends. Intensive care unit morbidity and mortality were not impacted. CONCLUSION: A simple technique of resident, nursing, and ancillary staff education, combined with alterations in order sets using electronic medical records, can lead to a sustained reduction in laboratory test utilization over time and to significant cost savings without affecting patient safety.
Entities:
Keywords:
clinical laboratory services; cost savings; intensive care; medical care costs; patient satisfaction; radiography; thoracic
Authors: Patrick Meybohm; Bernd Froessler; Lawrence T Goodnough; Andrew A Klein; Manuel Muñoz; Michael F Murphy; Toby Richards; Aryeh Shander; Donat R Spahn; Kai Zacharowski Journal: Perioper Med (Lond) Date: 2017-03-17
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