Failure to rescue (FTR), a nurse-sensitive national metric of health care quality, refers to death of a hospitalized patient from a treatable complication, and is potentiated by failure to recognize and appropriately respond to early signs of complications. There is a paucity of research examining patient features predictive of FTR complications. Such information could shift the current paradigm of nursing surveillance to earlier recognition, prevention and treatment of FTR complications, thereby saving lives. New-onset venous thromboembolism (VTE), an FTR complication occurring as either a deep vein thrombosis (DVT) or a pulmonary embolism (PE), is the leading cause of preventable hospital death, carrying a high risk of mortality and a national cost burden of $7 billion annually. VTE is a complex disease process involving interactions between clinical risk factors and acquired and/or inherited susceptibilities to thrombosis. Although biomarkers and clinical factors associated with VTE have been identified, clinical manifestations are subtle, presenting gradually over hours to days. Current VTE risk assessment models (RAM), the cornerstone of prevention, have limited utility due to their complexity and lack of reliability, generalizability and external validation. A critical gap in VTE risk modeling research is that while new-onset VTE pathology evolves over the course of hospitalization, no current models incorporate the progressive accrual of dynamic patient data and pattern evolution over time in their modeling approaches. The totality of routinely collected electronic health record (EHR) data is massive in terms of volume, variety, and production at a rapid velocity in real-time. Such big data could be used in machine learning (ML) analytic approaches to process time series clinical data to identify subtle, evolving feature patterns predictive of new-onset VTE and address this gap. This study proposes to assemble a large scale, multi-source, multi-dimensional VTE study dataset, and in tandem, systematically define the EHR data elements associated with a new-onset VTE diagnosis for computable phenotype algorithm development. We will then apply machine learning analytic approaches to baseline and accruing intensive time series clinical data in the curated dataset to develop models identifying data patterns and features predictive of dynamically evolving new-onset VTE in adult hospitalized patients. This proposal aligns with NINR?s strategic vision for nurse scientists to employ new strategies for collecting and analyzing complex big data sets to permit better understanding of the biological underpinnings of health, and improve ways nurses prevent and manage illness. This innovative study and individualized training plan under a strong and well- established team, represents initial steps in the applicant?s research trajectory focused on data science approaches to predict FTR complication risk, and develop, implement and test dynamic RAMs to inform targeted prevention and treatment decisions. Discovering new knowledge informing real-time decision making, nursing surveillance practices and care delivery systems can improve nurse sensitive patient outcomes.

Public Health Relevance

Venous thromboembolism (VTE) is the leading cause of preventable hospital death. This study first proposes to develop a reproducible computable phenotype definition for new-onset VTE cohort ascertainment from the electronic health record, and then develop dynamic models for VTE risk assessment through the application of machine learning algorithms to massive electronic health record clinical data repositories. Such models can inform the mechanisms underlying this complex disease and identify subtle pattern changes in a patient?s condition forecasting a VTE event, enabling earlier nurse identification and intervention, and decreasing the development of complications and failure to rescue in hospitalized patients.

Agency
National Institute of Health (NIH)
Institute
National Institute of Nursing Research (NINR)
Type
Predoctoral Individual National Research Service Award (F31)
Project #
1F31NR018102-01
Application #
9610301
Study Section
National Institute of Nursing Research Initial Review Group (NRRC)
Program Officer
Banks, David
Project Start
2018-09-01
Project End
2020-08-31
Budget Start
2018-09-01
Budget End
2019-08-31
Support Year
1
Fiscal Year
2018
Total Cost
Indirect Cost
Name
University of Pittsburgh
Department
Other Health Professions
Type
Schools of Nursing
DUNS #
004514360
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213