Kristin H Gigli1, Billie S Davis1, Jonathan G Yabes2,3, Chung-Chou H Chang2,3,4, Derek C Angus1,4, Tina Batra Hershey4, Jennifer R Marin5, Grant R Martsolf6,7, Jeremy M Kahn8,4. 1. Clinical Research, Investigation, and Systems Modeling of Acute Illness Center, Department of Critical Care Medicine. 2. Division of General Internal Medicine, Department of Medicine. 3. Departments of Biostatistics and. 4. Health Policy and Management, Graduate School of Public Health, and. 5. Division of Pediatric Emergency Medicine, Department of Pediatrics, School of Medicine. 6. Department of Acute and Tertiary Care, School of Nursing, University of Pittsburgh, Pittsburgh, Pennsylvania; and. 7. RAND Corporation, Pittsburgh, Pennsylvania. 8. Clinical Research, Investigation, and Systems Modeling of Acute Illness Center, Department of Critical Care Medicine, jeremykahn@pitt.edu.
Abstract
BACKGROUND: In 2013, New York introduced regulations mandating that hospitals develop pediatric-specific protocols for sepsis recognition and treatment. METHODS: We used hospital discharge data from 2011 to 2015 to compare changes in pediatric sepsis outcomes in New York and 4 control states: Florida, Massachusetts, Maryland, and New Jersey. We examined the effect of the New York regulations on 30-day in-hospital mortality using a comparative interrupted time-series approach, controlling for patient and hospital characteristics and preregulation temporal trends. RESULTS: We studied 9436 children admitted to 237 hospitals. Unadjusted pediatric sepsis mortality decreased in both New York (14.0% to 11.5%) and control states (14.4% to 11.2%). In the primary analysis, there was no significant effect of the regulations on mortality trends (differential quarterly change in mortality in New York compared with control states: -0.96%; 95% confidence interval [CI]: -1.95% to 0.02%; P = .06). However, in a prespecified sensitivity analysis excluding metropolitan New York hospitals that participated in earlier sepsis quality improvement, the regulations were associated with improved mortality trends (differential change: -2.08%; 95% CI: -3.79% to -0.37%; P = .02). The regulations were also associated with improved mortality trends in several prespecified subgroups, including previously healthy children (differential change: -1.36%; 95% CI: -2.62% to -0.09%; P = .04) and children not admitted through the emergency department (differential change: -2.42%; 95% CI: -4.24% to -0.61%; P = .01). CONCLUSIONS: Implementation of statewide sepsis regulations was generally associated with improved mortality trends in New York State, particularly in prespecified subpopulations of patients, suggesting that the regulations were successful in affecting sepsis outcomes.
BACKGROUND: In 2013, New York introduced regulations mandating that hospitals develop pediatric-specific protocols for sepsis recognition and treatment. METHODS: We used hospital discharge data from 2011 to 2015 to compare changes in pediatric sepsis outcomes in New York and 4 control states: Florida, Massachusetts, Maryland, and New Jersey. We examined the effect of the New York regulations on 30-day in-hospital mortality using a comparative interrupted time-series approach, controlling for patient and hospital characteristics and preregulation temporal trends. RESULTS: We studied 9436 children admitted to 237 hospitals. Unadjusted pediatric sepsismortality decreased in both New York (14.0% to 11.5%) and control states (14.4% to 11.2%). In the primary analysis, there was no significant effect of the regulations on mortality trends (differential quarterly change in mortality in New York compared with control states: -0.96%; 95% confidence interval [CI]: -1.95% to 0.02%; P = .06). However, in a prespecified sensitivity analysis excluding metropolitan New York hospitals that participated in earlier sepsis quality improvement, the regulations were associated with improved mortality trends (differential change: -2.08%; 95% CI: -3.79% to -0.37%; P = .02). The regulations were also associated with improved mortality trends in several prespecified subgroups, including previously healthy children (differential change: -1.36%; 95% CI: -2.62% to -0.09%; P = .04) and children not admitted through the emergency department (differential change: -2.42%; 95% CI: -4.24% to -0.61%; P = .01). CONCLUSIONS: Implementation of statewide sepsis regulations was generally associated with improved mortality trends in New York State, particularly in prespecified subpopulations of patients, suggesting that the regulations were successful in affecting sepsis outcomes.
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