Evidence-Based Pediatric Outcome Predictors to Guide the Allocation of Critical Care Resources in a Mass Casualty Event

Evidence-Based Pediatric Outcome Predictors to Guide the Allocation of Critical Care Resources in a Mass Casualty Event

ICU resources may be overwhelmed by a mass casualty event, triggering a conversion to Crisis Standards of Care in which critical care support is diverted away from patients least likely to benefit, with the goal of improving population survival. We aimed to devise a Crisis Standards of Care triage a...

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Bibliographic Details
Published in:Pediatric critical care medicine Vol. 16; no. 7; pp. e207 - e216
Main Authors: Toltzis, Philip, Soto-Campos, Gerardo, Shelton, Christian R, Kuhn, Evelyn M, Hahn, Ryan, Kanter, Robert K, Wetzel, Randall C
Format: Journal Article
Language:English
Published: United States 01-09-2015
Subjects:
Child
Child, Preschool
Critical Care - standards
Databases, Factual
Evidence-Based Medicine
Female
Health Care Rationing
Hospital Mortality
Humans
Intensive Care Units, Pediatric
Length of Stay
Male
Mass Casualty Incidents
Prognosis
Resource Allocation
Respiration, Artificial
Triage - methods
Triage - standards
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Summary:ICU resources may be overwhelmed by a mass casualty event, triggering a conversion to Crisis Standards of Care in which critical care support is diverted away from patients least likely to benefit, with the goal of improving population survival. We aimed to devise a Crisis Standards of Care triage allocation scheme specifically for children. A triage scheme is proposed in which patients would be divided into those requiring mechanical ventilation at PICU presentation and those not, and then each group would be evaluated for probability of death and for predicted duration of resource consumption, specifically, duration of PICU length of stay and mechanical ventilation. Children will be excluded from PICU admission if their mortality or resource utilization is predicted to exceed predetermined levels ("high risk"), or if they have a low likelihood of requiring ICU support ("low risk"). Children entered into the Virtual PICU Performance Systems database were employed to develop prediction equations to assign children to the exclusion categories using logistic and linear regression. Machine Learning provided an alternative strategy to develop a triage scheme independent from this process. One hundred ten American PICUs : One hundred fifty thousand records from the Virtual PICU database. None. The prediction equations for probability of death had an area under the receiver operating characteristic curve more than 0.87. The prediction equation for belonging to the low-risk category had lower discrimination. R for the prediction equations for PICU length of stay and days of mechanical ventilation ranged from 0.10 to 0.18. Machine learning recommended initially dividing children into those mechanically ventilated versus those not and had strong predictive power for mortality, thus independently verifying the triage sequence and broadly verifying the algorithm. An evidence-based predictive tool for children is presented to guide resource allocation during Crisis Standards of Care, potentially improving population outcomes by selecting patients likely to benefit from short-duration ICU interventions.
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ISSN:1529-7535
DOI:10.1097/PCC.0000000000000481