Random variation drives a critical bias in the comparison of healthcare-associated infections

To evaluate random effects of volume (patient days or device days) on healthcare-associated infections (HAIs) and the standardized infection ratio (SIR) used to compare hospitals. A longitudinal comparison between publicly reported quarterly data (2014-2020) and volume-based random sampling using 4...

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Bibliographic Details
Published in:Infection control and hospital epidemiology 2023-09, Vol.44 (9), p.1396-1402
Main Authors: Locey, Kenneth J., Webb, Thomas A., Weinstein, Robert A., Hota, Bala, Stein, Brian D.
Format: Article
Language:English
Subjects:
Archives & records
Bias
Catheters
Coronaviruses
COVID-19
Health care
Hospitals
Hypotheses
Medicaid
Medical instruments
Medicare
Nosocomial infections
Original Article
Probability
Regression analysis
Sample size
Staphylococcus infections
Urinary tract diseases
Urinary tract infections
Urogenital system
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Summary:To evaluate random effects of volume (patient days or device days) on healthcare-associated infections (HAIs) and the standardized infection ratio (SIR) used to compare hospitals. A longitudinal comparison between publicly reported quarterly data (2014-2020) and volume-based random sampling using 4 HAI types: central-line-associated bloodstream infections, catheter-associated urinary tract infections, infections, methicillin-resistant infections. Using 4,268 hospitals with reported SIRs, we examined relationships of SIRs to volume and compared distributions of SIRs and numbers of reported HAIs to the outcomes of simulated random sampling. We included random expectations into SIR calculations to produce a standardized infection score (SIS). Among hospitals with volumes less than the median, 20%-33% had SIRs of 0, compared to 0.3%-5% for hospitals with volumes higher than the median. Distributions of SIRs were 86%-92% similar to those based on random sampling. Random expectations explained 54%-84% of variation in numbers of HAIs. The use of SIRs led hundreds of hospitals with more infections than either expected at random or predicted by risk-adjusted models to rank better than other hospitals. The SIS mitigated this effect and allowed hospitals of disparate volumes to achieve better scores while decreasing the number of hospitals tied for the best score. SIRs and numbers of HAIs are strongly influenced by random effects of volume. Mitigating these effects drastically alters rankings for HAI types and may further alter penalty assignments in programs that aim to reduce HAIs and improve quality of care.
ISSN:0899-823X
1559-6834
DOI:10.1017/ice.2022.288