Mapping the timeliness of routine childhood vaccination in The Gambia: a spatial modelling study
Mapping the timeliness of routine childhood vaccination in The Gambia: a spatial modelling study
Introduction: timeliness of routine vaccination shapes childhood infection risk and thus is an important public health metric. Estimates of indicators of the timeliness of vaccination are usually produced at the national or regional level, which may conceal epidemiologically relevant local heterogeneities and make it difficult to identify pockets of vulnerabilities that could benefit from targeted interventions. Here, we demonstrate the utility of geospatial modelling techniques in generating high-resolution maps of the prevalence of delayed childhood vaccination in The Gambia. To guide local immunisation policy and prioritize key interventions, we also identified the districts with a combination of high estimated prevalence and a significant population of affected infants.
Methods: we used the birth dose of the hepatitis-B vaccine (HepB0), third-dose of the pentavalent vaccine (PENTA3), and the first dose of measles-containing vaccine (MCV1) as examples to map delayed vaccination nationally at a resolution of 1 × 1-km2 pixel. We utilized cluster-level childhood vaccination data from The Gambia 2019–20 Demographic and Health Survey. We adopted a fully Bayesian geostatistical model incorporating publicly available geospatial covariates to aid predictive accuracy. The model was implemented using the integrated nested Laplace approximation—stochastic partial differential equation (INLA-SPDE) approach.
Results: we found significant subnational heterogeneity in delayed HepB0, PENTA3 and MCV1 vaccinations. Specific districts in the central and eastern regions of The Gambia consistently exhibited the highest prevalence of delayed vaccination, while the coastal districts showed a lower prevalence for all three vaccines. We also found that districts in the eastern, central, as well as in coastal parts of The Gambia had a combination of high estimated prevalence of delayed HepB0, PENTA3 and MCV1 and a significant population of affected infants.
Conclusions: our approach provides decision-makers with a valuable tool to better understand local patterns of untimely childhood vaccination and identify districts where strengthening vaccine delivery systems could have the greatest impact.
5696-5705
Wariri, Oghenebrume
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Utazi, Chigozie Edson
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Okomo, Uduak
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Metcalf, C. Jessica E.
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Sogur, Malick
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Fofana, Sidat
ba8c481c-af8b-4fb8-b465-4f715be8b3c8
Murray, Kris A.
760a2652-4fc2-48fd-8dc5-11cfa4c82030
Grundy, Chris
cbeda38f-58b8-4170-b1eb-04774b1d17f7
Kampmann, Beate B.
cf742152-f36d-429e-8618-2bac74451209
9 September 2023
Wariri, Oghenebrume
be0001b6-357e-47d0-bfd1-2e86d110424e
Utazi, Chigozie Edson
e69ca81e-fb23-4bc1-99a5-25c9e0f4d6f9
Okomo, Uduak
db695888-1abf-405b-a4a5-621107b44c7b
Metcalf, C. Jessica E.
ce1431b5-f784-4552-b66c-52fcb08f095c
Sogur, Malick
9cc5bb50-bd99-47d7-afb8-b5ae68e64691
Fofana, Sidat
ba8c481c-af8b-4fb8-b465-4f715be8b3c8
Murray, Kris A.
760a2652-4fc2-48fd-8dc5-11cfa4c82030
Grundy, Chris
cbeda38f-58b8-4170-b1eb-04774b1d17f7
Kampmann, Beate B.
cf742152-f36d-429e-8618-2bac74451209
Wariri, Oghenebrume, Utazi, Chigozie Edson, Okomo, Uduak, Metcalf, C. Jessica E., Sogur, Malick, Fofana, Sidat, Murray, Kris A., Grundy, Chris and Kampmann, Beate B.
(2023)
Mapping the timeliness of routine childhood vaccination in The Gambia: a spatial modelling study.
Vaccine, 41 (39), .
(doi:10.1016/j.vaccine.2023.08.004).
Abstract
Introduction: timeliness of routine vaccination shapes childhood infection risk and thus is an important public health metric. Estimates of indicators of the timeliness of vaccination are usually produced at the national or regional level, which may conceal epidemiologically relevant local heterogeneities and make it difficult to identify pockets of vulnerabilities that could benefit from targeted interventions. Here, we demonstrate the utility of geospatial modelling techniques in generating high-resolution maps of the prevalence of delayed childhood vaccination in The Gambia. To guide local immunisation policy and prioritize key interventions, we also identified the districts with a combination of high estimated prevalence and a significant population of affected infants.
Methods: we used the birth dose of the hepatitis-B vaccine (HepB0), third-dose of the pentavalent vaccine (PENTA3), and the first dose of measles-containing vaccine (MCV1) as examples to map delayed vaccination nationally at a resolution of 1 × 1-km2 pixel. We utilized cluster-level childhood vaccination data from The Gambia 2019–20 Demographic and Health Survey. We adopted a fully Bayesian geostatistical model incorporating publicly available geospatial covariates to aid predictive accuracy. The model was implemented using the integrated nested Laplace approximation—stochastic partial differential equation (INLA-SPDE) approach.
Results: we found significant subnational heterogeneity in delayed HepB0, PENTA3 and MCV1 vaccinations. Specific districts in the central and eastern regions of The Gambia consistently exhibited the highest prevalence of delayed vaccination, while the coastal districts showed a lower prevalence for all three vaccines. We also found that districts in the eastern, central, as well as in coastal parts of The Gambia had a combination of high estimated prevalence of delayed HepB0, PENTA3 and MCV1 and a significant population of affected infants.
Conclusions: our approach provides decision-makers with a valuable tool to better understand local patterns of untimely childhood vaccination and identify districts where strengthening vaccine delivery systems could have the greatest impact.
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Accepted/In Press date: 1 August 2023
e-pub ahead of print date: 8 August 2023
Published date: 9 September 2023
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Local EPrints ID: 502005
URI: http://eprints.soton.ac.uk/id/eprint/502005
ISSN: 0264-410X
PURE UUID: b2af1ae6-e151-4e4b-8fe8-48a304f745ed
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Date deposited: 13 Jun 2025 16:32
Last modified: 22 Aug 2025 02:12
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Contributors
Author:
Oghenebrume Wariri
Author:
Uduak Okomo
Author:
C. Jessica E. Metcalf
Author:
Malick Sogur
Author:
Sidat Fofana
Author:
Kris A. Murray
Author:
Chris Grundy
Author:
Beate B. Kampmann
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