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Cost-effectiveness of scaling up mass drug administration for the control of soil- transmitted helminths: a comparison of cost function and constant costs.

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Presentation on theme: "Cost-effectiveness of scaling up mass drug administration for the control of soil- transmitted helminths: a comparison of cost function and constant costs."— Presentation transcript:

1 Cost-effectiveness of scaling up mass drug administration for the control of soil- transmitted helminths: a comparison of cost function and constant costs analyses  Dr Hugo C Turner, PhD, James E Truscott, PhD, Fiona M Fleming, PhD, T Déirdre Hollingsworth, PhD, Prof Simon J Brooker, DPhil, Prof Roy M Anderson, PhD  The Lancet Infectious Diseases  Volume 16, Issue 7, Pages (July 2016) DOI: /S (15) Copyright © 2016 Turner et al. Open Access article distributed under the terms of CC BY-NC-ND Terms and Conditions

2 Figure 1 Estimated cost as a function of the number of at-risk school-age children treated within the district, with and without the cost function taking into account the economies of scale Estimated total cost per year (A) and cost per person treated (B) are shown. The datapoints show the economic cost of a school-based delivery programme in Uganda (including a unit cost of albendazole of US$0·02 per treatment),23 collected across six districts over 3 years.5 The cost function was fitted (α1=9989, 95% CI 9850–10 117; α2=0·301, 0·295–0·306) to the total cost per year data (A) using maximum likelihood. b was taken as the mean cost from the data ($0·85). The costs are in 2014 prices. α1=fixed costs (ie, those that are incurred, and do not change, irrespective of how many are treated [the intercept in (A)]). α2=incremental cost per treatment (ie, variable costs). b=constant cost per treatment. g=number treated. SAC=school-age children. The Lancet Infectious Diseases  , DOI: ( /S (15) ) Copyright © 2016 Turner et al. Open Access article distributed under the terms of CC BY-NC-ND Terms and Conditions

3 Figure 2 Effectiveness and cost-effectiveness of school-based mass drug administration (A–C) Effectiveness and (D–F) cost-effectiveness of school-based mass drug administration as a function of the number of at-risk SAC treated within the district are shown according to effectiveness measure (appendix). The number treated was calculated by varying the treatment coverage of SAC at risk of infection within the district, with treatment coverage defined as the proportion of the targeted population (ie, SAC) receiving treatment. In (D–F) the smaller the cost-effectiveness ratio, the more cost effective mass drug administration is deemed to be. Results assume a 50-year time horizon, a period of implementation of 10 years (ie, ten annual treatment rounds), a 3% discount rate, and a total population size of 200 000 individuals, 32% of whom were SAC. SAC=school-age children. The Lancet Infectious Diseases  , DOI: ( /S (15) ) Copyright © 2016 Turner et al. Open Access article distributed under the terms of CC BY-NC-ND Terms and Conditions

4 Figure 3 Relation between mean intensity and prevalence of infection, and projected effect of mass drug administration on transmission (A) The relation between mean intensity and prevalence of infection and (B) the projected effect of mass drug administration on transmission are shown. The line in (A) is described in the appendix. In (B), the force of infection is the mean number of incoming worms establishing per person per year—a metric for the amount of ongoing transmission within the model. Results assume 90% treatment coverage of school-age children. Only the first 15 years of treatment are included to show the notion clearly. The Lancet Infectious Diseases  , DOI: ( /S (15) ) Copyright © 2016 Turner et al. Open Access article distributed under the terms of CC BY-NC-ND Terms and Conditions

5 Figure 4 Projected cost-effectiveness and total cost of an intervention in a low-transmission setting with a 35-year implementation period The point at which elimination is achieved and the costs start decreasing is dependent on the coverage of SAC and not the actual number treated. The number treated was calculated by varying the treatment coverage of SAC at risk of infection within the district. Results assume a 50-year time horizon, a period of implementation of 35 years (ie, 35 annual treatment rounds), a 3% discount rate, low transmission setting (reproductive number=2), and a total population size of 200 000, 32% of whom are SAC. SAC=school-age children. The Lancet Infectious Diseases  , DOI: ( /S (15) ) Copyright © 2016 Turner et al. Open Access article distributed under the terms of CC BY-NC-ND Terms and Conditions

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