Resources Repository
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ArticlePublication 2015Pneumococcal Vaccination and Pneumonia Treatment in Ethiopia: Results from Extended CEA
This article, published in PLOS ONE, conducts an extended cost-effectiveness analysis (ECEA) of two fully …
This article, published in PLOS ONE, conducts an extended cost-effectiveness analysis (ECEA) of two fully publicly financed interventions in Ethiopia: pneumococcal vaccination for newborns and pneumonia treatment for under-five children. The authors apply ECEA methods and estimate the program impact on: (1) government program costs; (2) pneumonia and pneumococcal deaths averted; (3) household expenses related to pneumonia/pneumococcal disease treatment averted; (4) prevention of household medical impoverishment; and (5) distributional consequences across the wealth strata of…
Priority Setting/Ethics | Sub-Saharan Africa | Infectious Diseases | Costing Methods | Cost-Effectiveness Analysis | Child/Nutrition | Social Determinants | Health Systems | Economics/Finance | Health/Medicine -
ArticlePublication 2014Rise and Fall of HIV in High-Prevalence Countries: A Challenge for Mathematical Modeling
Several countries with generalized, high-prevalence HIV epidemics, mostly in sub-Saharan Africa, have experienced rapid declines …
Several countries with generalized, high-prevalence HIV epidemics, mostly in sub-Saharan Africa, have experienced rapid declines in transmission. These HIV epidemics, often with rapid onsets, have generally been attributed to a combination of factors related to high-risk sexual behavior. The subsequent declines in these countries began prior to widespread therapy or implementation of any other major biomedical prevention. This change has been construed as evidence of behavior change, often on the basis of mathematical models, but…
Mathematical Models | Sub-Saharan Africa | Infectious Diseases | Health Outcomes | Health/Medicine -
ArticlePublication 2013Public Finance of Rotavirus Vaccination in India and Ethiopia: Extended CEA
This study uses extended cost-effectiveness analysis (ECEA) to evaluate a hypothetical publicly financed program for …
This study uses extended cost-effectiveness analysis (ECEA) to evaluate a hypothetical publicly financed program for rotavirus vaccination in India and Ethiopia. The authors measured program impact on: (1) averted rotavirus deaths; (2) reduction in household expenditures; (3) financial risk protection; and (4) distributional consequences across the country’s wealth strata. In India and Ethiopia, the program was predicted to decrease rotavirus deaths substantially, and effectively provide financial risk protection among the poor, while also reducing household…
Priority Setting/Ethics | Sub-Saharan Africa | Infectious Diseases | Health Outcomes | Cost-Effectiveness Analysis | Child/Nutrition | Social Determinants | Culture/Society | Economics/Finance | Health/Medicine | Asia & Pacific -
ReviewPublication 2012Modeling Preventative Strategies Against HPV-Related Disease in Developed Countries
This review article is part of a special supplement on “Comprehensive Control of HPV Infections …
This review article is part of a special supplement on “Comprehensive Control of HPV Infections and Related Diseases.” At the time of its writing, prophylactic vaccination against human papillomavirus (HPV) in pre-adolescent females had been introduced in most developed countries, supported by modeled evaluations that had almost universally found vaccination of pre-adolescent females to be cost-effective. Vaccination of pre-adolescent males had been shown to be cost-effective at a cost per vaccinated individual of ~US$400-500 if…
Mathematical Models | Global | Chronic Disease/Risk | Cost-Effectiveness Analysis | Social Determinants | Health Systems | Health/Medicine -
Lesson/ModuleWeb Portal, Teaching Resource 2011Epidemics: Modelling with Mathematics
This learning module explores mathematically modeling disease epidemics. Through video clips, Dr. Julia Gog and …
This learning module explores mathematically modeling disease epidemics. Through video clips, Dr. Julia Gog and Dr. Andrew Conlan explain simple mathematical models for how disease spreads through populations, and how these models can be built upon for more complex modelling. These models can be used to predict epidemics, and in turn, help to mitigate their risks. Related resources, such as activities, worksheets, and presentations, are available to help students investigate mathematical modelling. These activities are…
Mathematical Models | Global | Infectious Diseases | Health/Medicine | Science/Technology | High School | College | Critical Thinking/Analysis | Decision Making/Leadership