Cerner powerchart

Manufactured by Oracle

Sourced in United States, Macao

Cerner PowerChart is a comprehensive electronic health record (EHR) system developed by Cerner Corporation. It is designed to support healthcare providers in managing patient information, clinical workflows, and care coordination. The core function of Cerner PowerChart is to provide a centralized platform for storing, accessing, and managing patient medical records, including patient demographics, clinical notes, test results, and medication histories.

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Lab products found in correlation

Stata ic, by StataCorp (1 mentions)

5 protocols using cerner powerchart

Secure Medical Record Extraction and Analysis

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Re-identifiable data were extracted from the electronic medical record system using the secure, Sydney Local Health District Targeted Activity and Reporting System (STARS) to an Excel spreadsheet then to Stata/IC® (StataCorp, College Station, TX, USA) for analysis. STARS is a business intelligence program (Qlik Sense©, Lund, Sweden) integrated with the hospitals’ electronic medical records that provides reporting and analytical functions across multiple hospital datasets [14 ]. All patients seen in the Sydney Local Health District EDs have their episode of care recorded in the same electronic medical record system (Cerner PowerChart™, Kansas City, MO, USA), but imaging, laboratory tests, and medicines data are stored in separate databases. STARS links these hospital databases using the patient’s unique encounter identifier. The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.

de Luca K., McLachlan A.J., Maher C.G, & Machado G.C. (2023). Australian emergency department care for older adults diagnosed with low back pain of lumbar spine origin: a retrospective analysis of electronic medical record system data (2016–2019). BMC Emergency Medicine, 23, 17.

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Prehospital Risk Score Predicting Critical Illness

Cited 2 times

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We gathered EMS incident reports for each patient encounter from a computerized database (emsCharts, Inc; Warrendale, PA). Data included dispatch and response times, demographics, first recorded prehospital vital signs, and Glasgow Coma Scale (GCS). Data were used to calculate a validated prehospital risk score, a multivariable score that predicts development of in-hospital critical illness using prehospital clinical variables including age, systolic blood pressure, heart rate, pulse oximetry and GCS.^{15 (link),16 (link)} A Computer Aided Dispatch program integrated with 9-1-1 dispatch provided date and time data for medical contact and hospital arrival times.
We linked prehospital data with electronic health record data at UPMC hospitals using patient identifiers collected in the ED by research assistants (Cerner Powerchart; Cerner, Kansas City, MO) From the inpatient record, we determined intensive care unit (ICU) admission, hospital and ICU length of stay (LOS), and in-hospital mortality. International Classification of Diseases, 9^th Revision (ICD-9) codes determined the Elixhauser Comorbidity Index.^{17 (link)}

Brant E.B., Kennedy J., Martin-Gill C., Jackson V., Palmer O.M., Callaway C.W., Kahn J.M., Yealy D.M., Angus D.C, & Seymour C.W. (2019). Association between intravenous fluid bolus and biomarker trajectory during prehospital care. Prehospital emergency care : official journal of the National Association of EMS Physicians and the National Association of State EMS Directors, 24(2), 196-203.

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EHR-Powered ICU Sedation Analysis

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We obtained patient-level data by prospectively screening the UPMC electronic health record (EHR) (Cerner PowerChart, Cerner Corporation, Kansas City, MO). These data included demographic information, sedation goals, medication administration, and clinical outcomes. We obtained ICU-level data from existing QI reports, including monthly counts for MV days and monthly pharmacy charges for fentanyl, propofol, and midazolam.

Groetzinger L.M., Rivosecchi R.M., McVerry B.J., Smithburger P.L., Lamberty P.E., Donahoe M.P, & Barbash I.J. (2020). A Quality Improvement Evaluation of a Primary As-Needed Light Sedation Protocol in Mechanically Ventilated Adults. Critical Care Explorations, 2(12), e0264.

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COVID-19 Cohort Study in Ontario

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This was a retrospective cohort study based on a review of electronic medical records at a network of 12 academic and community hospitals within six counties in Southwestern Ontario, Canada. Adults ≥ 18 years of age presenting to hospital with a PCR-confirmed first-onset, acute presentation of COVID-19 infection from April 1, 2020 to July 31, 2021 were included. The participating hospitals share a common electronic medical record (EMR) platform (Cerner PowerChart®, Cerner Inc., North Kansas City, Missouri) and rely on a single clinical laboratory for diagnostic microbiologic testing. Approval to conduct this study, with waiver of individual consent, was obtained from the Western University Research Ethics Board (London, Ontario, Canada) and the Harvard Longwood Campus Institutional Research Ethics Board (Boston, Massachusetts, USA).

Elsayed S., Cabrera A., Ouellette D., Jones P.M., Dhami R, & Hanage W. (2022). Association of body mass index with COVID-19-related neurologic sequelae: a retrospective cohort study. Clinical and Experimental Medicine.

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Hospital Encounter Data for Sepsis

Cited 1 time

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We obtained data from the UPMC EHR (Cerner PowerChart, Cerner Corporation) from an existing registry of hospital encounters; earlier versions of these data were used to develop and validate current sepsis definitions (16 (link)). These data include demographic characteristics, vital signs, laboratory values, medication administration, microbiology results, ventilator settings, and diagnosis and procedure codes.

Barbash I.J., Davis B.S., Yabes J.G., Seymour C.W., Angus D.C, & Kahn J.M. (2021). Treatment Patterns and Clinical Outcomes After the Introduction of the Medicare Sepsis Performance Measure (SEP-1). Annals of internal medicine, 174(7), 927-935.

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