Abstract
Novel tuberculosis vaccines are in varying stages of pre-clinical and clinical development. This study seeks to estimate the potential cost-effectiveness of a BCG booster vaccine, while accounting for costs of large-scale clinical trials, using the MVA85A vaccine as a case study for estimating potential costs. We conducted a decision analysis from the societal perspective, using a 10-year time frame and a 3% discount rate. We predicted active tuberculosis cases and tuberculosis-related costs for a hypothetical cohort of 960,763 South African newborns (total born in 2009). We compared neonatal vaccination with bacille Calmette-Guérin alone to vaccination with bacille Calmette-Guérin plus a booster vaccine at 4 months. We considered booster efficacy estimates ranging from 40% to 70%, relative to bacille Calmette-Guérin alone. We accounted for the costs of Phase III clinical trials. The booster vaccine was assumed to prevent progression to active tuberculosis after childhood infection, with protection decreasing linearly over 10 years. Trial costs were prorated to South Africa's global share of bacille Calmette-Guérin vaccination. Vaccination with bacille Calmette-Guérin alone resulted in estimated tuberculosis-related costs of $89.91 million 2012 USD, and 13,610 tuberculosis cases in the birth cohort, over the 10 years. Addition of the booster resulted in estimated cost savings of $7.69–$16.68 million USD, and 2,800–4,160 cases averted, for assumed efficacy values ranging from 40%–70%. A booster tuberculosis vaccine in infancy may result in net societal cost savings as well as fewer active tuberculosis cases, even if efficacy is relatively modest and large scale Phase III studies are required.
Highlights
One-third of the world’s population is infected with Mycobacterium tuberculosis (M. tuberculosis), with an estimated 9.4 million incident cases and 1.3 million deaths in 2009 [1,2]
The MVA85A vaccine has recently undergone evaluation in bacille Calmette-Guerin (BCG)-vaccinated infants in South Africa, and is being studied in HIV-infected adults in Senegal and South Africa [6,7,8], in trials conducted by the Oxford-Emergent Tuberculosis Consortium (OETC)
We developed a Markov model, using TreeAge ProSuite 2009 (TreeAge Software, Williamstown, MA.) We compared two scenarios: 1) current neonatal BCG vaccination and DOTS coverage, without booster vaccination, and 2) current neonatal BCG vaccination and DOTS coverage, plus a new infant booster vaccine administered at age 4 months. (Figures 1–2)
Summary
One-third of the world’s population is infected with Mycobacterium tuberculosis (M. tuberculosis), with an estimated 9.4 million incident cases and 1.3 million deaths in 2009 [1,2]. Progress in reducing morbidity and mortality has been severely hampered by several challenges, including HIV co-infection, antibiotic resistance, and limited diagnostic and treatment capacity in many high-burden settings. The bacille Calmette-Guerin (BCG) vaccine is the only vaccine currently licensed for TB prevention While it is considered modestly efficacious in preventing tuberculosis meningitis and disseminated TB in children, estimates of its true efficacy vary widely [3]. It appears to provide limited or no protection against adult pulmonary TB, so that it cannot directly reduce transmission [4,5]. The MVA85A vaccine has recently undergone evaluation in BCG-vaccinated infants in South Africa, and is being studied in HIV-infected adults in Senegal and South Africa [6,7,8], in trials conducted by the Oxford-Emergent Tuberculosis Consortium (OETC)
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