Management of Febrile Children in the Age of the Conjugate Pneumococcal Vaccine: A Cost-Effectiveness Analysis

Abstract

Objectives. The optimal practice management of highly febrile 3- to 36-month-old children without a focal source has been controversial. The recent release of a conjugate pneumococcal vaccine may reduce the rate of occult bacteremia and alter the utility of empiric testing and treatment. The objective of this study was to determine the cost-effectiveness of 6 different management strategies of febrile 3- to 36-month-old children at current and declining rates of occult pneumococcal bacteremia. Methods. A cost-effectiveness (CE) analysis was performed to compare the strategies of “no work-up,” “clinical judgment,” “blood culture,” “blood culture + treatment,” “complete blood count (CBC) + selective blood culture and treatment,” and “CBC and blood culture + selective treatment.” A hypothetical cohort of 100 000 children who were 3 to 36 months of age and had a fever of ≥39°C and no source of infection was modeled for each strategy. Our main outcome measures were cases of meningitis prevented, life-years saved compared with “no work-up,” total cost (1999 dollars), and incremental CE ratios. Results. When compared with “no work-up,” the strategy of “CBC + selective blood culture and treatment” using a white blood cell (WBC) cutoff of 15 × 10⁹/L prevents 48 cases of meningitis, saves 86 life-years per 100 000 patients, and is less costly at the current rate of bacteremia (1.5%). Using the strategy of “CBC + selective blood culture and treatment” with a lower WBC cutoff of 10 × 10⁹/L costs an additional $72 300 per life-year saved. If the rate of bacteremia declines to 0.5%, then the incremental CE ratio of “clinical judgment” compared with “no work-up” is $38 000 per life-year saved; however, strategies that include empiric testing or treatment result in CE ratios greater than $300 000 per life-year saved. Conclusions. “CBC + selective blood culture and treatment” using a WBC cutoff of 15 × 10⁹/L is cost-effective at the current rate of pneumococcal bacteremia. If the rate of occult bacteremia falls below 0.5% with widespread use of the conjugate pneumococcal vaccine, then strategies that use empiric testing and treatment should be eliminated.