Details

Autor(en) / Beteiligte

• Burrows, Holly
• Antillón, Marina
• Gauld, Jillian S.
• Kim, Jong-Hoon
• Mogasale, Vittal
• Ryckman, Theresa
• Andrews, Jason R.
• Lo, Nathan C.
• Pitzer, Virginia E.

Titel

Comparison of model predictions of typhoid conjugate vaccine public health impact and cost-effectiveness

Ist Teil von

• Vaccine, 2023-01, Vol.41 (4), p.965-975

Ort / Verlag

Netherlands: Elsevier Ltd

Erscheinungsjahr

2023

Quelle

Access via ScienceDirect (Elsevier)

Beschreibungen/Notizen

• •While model predictions varied, typhoid conjugate vaccines are likely cost-effective.•Differing structural assumptions can explain discrepancies in model predictions.•Static model estimates of vaccine impact are not necessarily conservative.•Increasing the contribution of chronic carriers decreased predicted vaccine impact. Models are useful to inform policy decisions on typhoid conjugate vaccine (TCV) deployment in endemic settings. However, methodological choices can influence model-predicted outcomes. To provide robust estimates for the potential public health impact of TCVs that account for structural model differences, we compared four dynamic and one static mathematical model of typhoid transmission and vaccine impact. All models were fitted to a common dataset of age-specific typhoid fever cases in Kolkata, India. We evaluated three TCV strategies: no vaccination, routine vaccination at 9 months of age, and routine vaccination at 9 months with a one-time catch-up campaign (ages 9 months to 15 years). The primary outcome was the predicted percent reduction in symptomatic typhoid cases over 10 years after vaccine introduction. For three models with economic analyses (Models A-C), we also compared the incremental cost-effectiveness ratios (ICERs), calculated as the incremental cost (US$) per disability-adjusted life-year (DALY) averted. Routine vaccination was predicted to reduce symptomatic cases by 10–46 % over a 10-year time horizon under an optimistic scenario (95 % initial vaccine efficacy and 19-year mean duration of protection), and by 2–16 % under a pessimistic scenario (82 % initial efficacy and 6-year mean protection). Adding a catch-up campaign predicted a reduction in incidence of 36–90 % and 6–35 % in the optimistic and pessimistic scenarios, respectively. Vaccine impact was predicted to decrease as the relative contribution of chronic carriers to transmission increased. Models A-C all predicted routine vaccination with or without a catch-up campaign to be cost-effective compared to no vaccination, with ICERs varying from $95–789 per DALY averted; two models predicted the ICER of routine vaccination alone to be greater than with the addition of catch-up campaign. Despite differences in model-predicted vaccine impact and cost-effectiveness, routine vaccination plus a catch-up campaign is likely to be impactful and cost-effective in high incidence settings such as Kolkata.