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Predicting Patient Instability Noninvasively for Nursing Care-Two (PPINNC-2)

$656,467R01FY2016NRNIH

University Of Pittsburgh At Pittsburgh, Pittsburgh PA

Investigators

Linked publications & trials

Abstract

? DESCRIPTION (provided by applicant): Patients in step-down units (SDU) undergo continuous noninvasive vital sign (VS) monitoring to facilitate nurse detection of cardiorespiratory instability (CRI) in need of a diagnostic and/or therapeutic response. Yet, our data and others show nurses do not readily identify CRI nor necessarily react in a timely fashion. Further, 75% of monitored SDU patients never become unstable, diffusing surveillance away from those in need. Current nursing surveillance strategies are imprecise and untargeted, leading to failure to detect CRI, and failure to rescue patients needing intervention. Smart clinical decision support systems (SDSS) that continuously process complex data from disparate sources can apply detection algorithms to alert clinicians of ongoing events (nowcasting) and those developing in future (forecasting) to refocus clinicians on high-risk patients, and apply supportive care earlier, or even care to prevent the CRI. In our prior R01 we developed a prototype SDSS using machine learning (ML) to process time series data and learn data patterns systematically preceding events in the near or far term. In that study, we: 1) assembled a complex expert-annotated multidimensional dataset from our existing 1/20 Hz physiologic monitoring data as the learning platform; 2) developed and validated ML models for dynamic CRI prediction, tested which were most effective in CRI nowcasting; and 3) used the SDSS to develop an early prototype CRI prediction graphical user interface (GUI) for nurses. Importantly, our models were also able to discriminate between real CRI and artifact in real-time with high sensitivity and specificity. We now propose to build on this work and enhance our models by: 1) prospectively collecting a multidimensional high-resolution (100-250Hz) dataset of non-invasive physiologic monitoring and electronic health record (EHR) data from two different medical center SDUs to create enhanced and generalizable CRI nowcasting capability, 2) using our existing and the expanding multicenter clinical datasets to precisely forecast CRI events and online artifact discrimination, and 3) create a robust SDSS platform for real-time precision CRI nowcast and forecast alerting; present alerts in a graphical user interface (GUI), iteratively develop the GUI in the simulation setting; and then pilot its use in a SDU. Permitting nurses to move toward SDSS-supported precision nursing surveillance, and know who will become unstable, when they will do so, and why-all in advance of overt instability manifestation-can shift CRI nursing care from reactive to preemptive. Developing a sensitive, specific, parsimonious and clinically practical means to predict patient instability has important implications for reducing preventable morbidity and mortality, eliminating alarm fatigue, improving patient safety, nursing care (monitoring frequency, case load and mixture, staff allocation) and care delivery systems (triage, bed allocation, prevention of adverse events).

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