R J Jacobs1, H S Margolis, P J Coleman. 1. Capitol Outcomes Research Inc, 6188 Old Franconia Rd, Alexandria, VA 22310, USA. Jake.Jacobs@capitoloutcomesresearch.com.
Abstract
BACKGROUND: The Advisory Committee on Immunization Practices has recommended routine childhood hepatitis A vaccination in states and communities where the incidence of disease exceeds the national average, but most adolescents are currently unprotected from infection. OBJECTIVE: To estimate clinical and economic consequences of vaccinating adolescents against hepatitis A in the 10 states with the highest disease rates. DESIGN: Decision analysis was used to assess cost-effectiveness from societal and health system perspectives. Parameter estimates were obtained from national surveillance data, a study of hepatitis A cases, and an expert panel. MAIN OUTCOME MEASURES: Reduction in disease incidence; costs of vaccination, treatment, and work loss; years of life saved (YOLS); and costs per YOLS. RESULTS: In states with the highest disease rates, vaccination of adolescents against hepatitis A would reduce the lifetime risk of symptomatic infection from 3.3% to 0.7% and prevent loss of 2117 years of life. Vaccination of a single birth cohort would cost $30.9 million, yet treatment and work loss costs would decline $14.2 million and $23.8 million, respectively. Hepatitis A vaccination would cost the health system $7902 per YOLS or $13,722 per discounted YOLS. Results are most sensitive to variation in the discount rate and assumptions regarding long-term vaccine protective efficacy. CONCLUSIONS: Hepatitis A vaccination of adolescents in states with high disease rates would reduce costs to society. Although health system costs would increase, cost-effectiveness is comparable to other recommended vaccines and superior to many commonly used medical interventions. Arch Pediatr Adolesc Med. 2000;154:763-770
BACKGROUND: The Advisory Committee on Immunization Practices has recommended routine childhood hepatitis A vaccination in states and communities where the incidence of disease exceeds the national average, but most adolescents are currently unprotected from infection. OBJECTIVE: To estimate clinical and economic consequences of vaccinating adolescents against hepatitis A in the 10 states with the highest disease rates. DESIGN: Decision analysis was used to assess cost-effectiveness from societal and health system perspectives. Parameter estimates were obtained from national surveillance data, a study of hepatitis A cases, and an expert panel. MAIN OUTCOME MEASURES: Reduction in disease incidence; costs of vaccination, treatment, and work loss; years of life saved (YOLS); and costs per YOLS. RESULTS: In states with the highest disease rates, vaccination of adolescents against hepatitis A would reduce the lifetime risk of symptomatic infection from 3.3% to 0.7% and prevent loss of 2117 years of life. Vaccination of a single birth cohort would cost $30.9 million, yet treatment and work loss costs would decline $14.2 million and $23.8 million, respectively. Hepatitis A vaccination would cost the health system $7902 per YOLS or $13,722 per discounted YOLS. Results are most sensitive to variation in the discount rate and assumptions regarding long-term vaccine protective efficacy. CONCLUSIONS:Hepatitis A vaccination of adolescents in states with high disease rates would reduce costs to society. Although health system costs would increase, cost-effectiveness is comparable to other recommended vaccines and superior to many commonly used medical interventions. Arch Pediatr Adolesc Med. 2000;154:763-770
Authors: Andrea M Anonychuk; Andrea C Tricco; Chris T Bauch; Ba' Pham; Vladimir Gilca; Bernard Duval; Ava John-Baptiste; Gloria Woo; Murray Krahn Journal: Pharmacoeconomics Date: 2008 Impact factor: 4.981