Initial validation of a simulation model for estimating the impact of serogroup A Neisseria meningitidis vaccination in the African meningitis belt

Jackson, Michael L.; Diallo, Alpha Oumar; Médah, Isaie; Bicaba, Brice Wilfried; Yaméogo, Issaka; Koussoubé, Daouda; Ouédraogo, Rasmata; Sangaré, Lassané; Mbaeyi, Sarah A.

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Initial validation of a simulation model for estimating the impact of serogroup A Neisseria meningitidis vaccination in the African meningitis belt

Supporting Files Public Domain

Oct 25 2018
By Jackson, Michael L. ; Diallo, Alpha Oumar ; Médah, Isaie ; ...

File Language:

English

Details

Alternative Title:

PLoS One
Personal Author:

Jackson, Michael L. ; Diallo, Alpha Oumar ; Médah, Isaie ; Bicaba, Brice Wilfried ; Yaméogo, Issaka ; Koussoubé, Daouda ; Ouédraogo, Rasmata ; Sangaré, Lassané ; Mbaeyi, Sarah A.
Description:

We previously developed a mathematical simulation of serogroup A Neisseria meningitidis (NmA) transmission in Burkina Faso, with the goal of forecasting the relative benefit of different vaccination programs. Here, we revisit key structural assumptions of the model by comparing how accurately the different assumptions reproduce observed NmA trends following vaccine introduction. A priori, we updated several of the model's parameters based on recently published studies. We simulated NmA disease under different assumptions about duration of vaccine-induced protection (including the possibility that vaccine-induced protection may last longer than natural immunity). We compared simulated and observed case counts from 2011-2017. We then used the best-fit model to forecast the impact of different vaccination strategies. Our updated model, with the assumption that vaccine-induced immunity lasts longer than immunity following NmA colonization, was able to reproduce observed trends in NmA disease. The updated model predicts that, following a mass campaign among persons 1-29 years of age, either routine immunization of 9 month-old children or periodic mini-campaigns among children 1-4 years of age will lead to sustained control of epidemic NmA in Burkina Faso. This validated model can help public health officials set policies for meningococcal vaccination in Africa.
Subjects:

Adolescent Adult Child Child, Preschool Computer Simulation Female Humans Immunization Programs Infant Male Meningitis, Meningococcal Meningococcal Vaccines Neisseria Meningitidis, Serogroup A Serogroup Statistics As Topic Vaccination Young Adult
Source:

PLoS One. 13(10).
Pubmed ID:

30359419
Pubmed Central ID:

PMC6201925
Document Type:

Journal Article
Place as Subject:

Burkina Faso
Volume:

13
Issue:

10
Collection(s):

CDC Public Access
Main Document Checksum:

urn:sha256:630e4a0ae60c0eb19281fef8bc01f165ed315c31a589f5d4bc1a529b3d573853
Download URL:

https://stacks.cdc.gov/view/cdc/60849/cdc_60849_DS1.pdf
File Type:

[PDF - 1.03 MB ]

File Language:

English

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