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SHR Neuro Krebs Kardio Lipid Stoffw Microb

Maheshwari, K; Cywinski, J; Mathur, P; Cummings, KC; Avitsian, R; Crone, T; Liska, D; Campion, FX; Ruetzler, K; Kurz, A.
Identify and monitor clinical variation using machine intelligence: a pilot in colorectal surgery
J CLIN MONIT COMPUT. 2019; 33(4): 725-731. Doi: 10.1007/s10877-018-0200-x
Web of Science PubMed FullText FullText_MUG

Co-Autor*innen der Med Uni Graz: Kurz Andrea
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Abstract:: Standardized clinical pathways are useful tool to reduce variation in clinical management and may improve quality of care. However the evidence supporting a specific clinical pathway for a patient or patient population is often imperfect limiting adoption and efficacy of clinical pathway. Machine intelligence can potentially identify clinical variation and may provide useful insights to create and optimize clinical pathways. In this quality improvement project we analyzed the inpatient care of 1786 patients undergoing colorectal surgery from 2015 to 2016 across multiple Ohio hospitals in the Cleveland Clinic System. Data from four information subsystems was loaded in the Clinical Variation Management (CVM) application (Ayasdi, Inc., Menlo Park, CA). The CVM application uses machine intelligence and topological data analysis methods to identify groups of similar patients based on the treatment received. We defined favorable performance as groups with lower direct variable cost, lower length of stay, and lower 30-day readmissions. The software auto-generated 9 distinct groups of patients based on similarity analysis. Overall, favorable performance was seen with ketorolac use, lower intra-operative fluid use (<2000cc) and surgery for cancer. Multiple sub-groups were easily created and analyzed. Adherence reporting tools were easy to use enabling almost real time monitoring. Machine intelligence provided useful insights to create and monitor care pathways with several advantages over traditional analytic approaches including: (1) analysis across disparate data sets, (2) unsupervised discovery, (3) speed and auto-generation of clinical pathways, (4) ease of use by team members, and (5) adherence reporting.
Find related publications in this database (Keywords): Machine intelligence; Clinical monitoring; Clinical pathway