High resolution age-structured mapping of childhood vaccination coverage in low and middle income countries
High resolution age-structured mapping of childhood vaccination coverage in low and middle income countries
Background
The expansion of childhood vaccination programs in low and middle income countries has been a substantial public health success story. Indicators of the performance of intervention programmes such as coverage levels and numbers covered are typically measured through national statistics or at the scale of large regions due to survey design, administrative convenience or operational limitations. These mask heterogeneities and ‘coldspots’ of low coverage that may allow diseases to persist, even if overall coverage is high. Hence, to decrease inequities and accelerate progress towards disease elimination goals, fine-scale variation in coverage should be better characterized.
Methods
Using measles as an example, cluster-level Demographic and Health Surveys (DHS) data were used to map vaccination coverage at 1 km spatial resolution in Cambodia, Mozambique and Nigeria for varying age-group categories of children under five years, using Bayesian geostatistical techniques built on a suite of publicly available geospatial covariates and implemented via Markov Chain Monte Carlo (MCMC) methods.
Results
Measles vaccination coverage was found to be strongly predicted by just 4–5 covariates in geostatistical models, with remoteness consistently selected as a key variable. The output 1 × 1 km maps revealed significant heterogeneities within the three countries that were not captured using province-level summaries. Integration with population data showed that at the time of the surveys, few districts attained the 80% coverage, that is one component of the WHO Global Vaccine Action Plan 2020 targets.
Conclusion
The elimination of vaccine-preventable diseases requires a strong evidence base to guide strategies and inform efficient use of limited resources. The approaches outlined here provide a route to moving beyond large area summaries of vaccination coverage that mask epidemiologically-important heterogeneities to detailed maps that capture subnational vulnerabilities. The output datasets are built on open data and methods, and in flexible format that can be aggregated to more operationally-relevant administrative unit levels.
Measles vaccine, Demographic and Health Surveys, Bayesian geostatistics, Coverage heterogeneities
1583-1591
Utazi, Chigozie Edson
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Thorley, Julia
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Alegana, Victor
f5bd6ab7-459e-4122-984f-2bdb5f906d82
Ferrari, Matthew
c6c0101b-9fb3-4244-9f73-e8481ff821ed
Takahashi, Saki
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Metcalf, C. Jessica E.
c3747da7-6d96-4f13-8d3e-31df305e2d51
Lessler, Justin
37da6ebb-d802-4202-99eb-b183d5fbcede
Tatem, Andrew
6c6de104-a5f9-46e0-bb93-a1a7c980513e
14 March 2018
Utazi, Chigozie Edson
e69ca81e-fb23-4bc1-99a5-25c9e0f4d6f9
Thorley, Julia
d79524b8-5f1a-45cb-8b9a-89751ae461db
Alegana, Victor
f5bd6ab7-459e-4122-984f-2bdb5f906d82
Ferrari, Matthew
c6c0101b-9fb3-4244-9f73-e8481ff821ed
Takahashi, Saki
9fdda80e-7d39-457d-9633-c61b9da6deb0
Metcalf, C. Jessica E.
c3747da7-6d96-4f13-8d3e-31df305e2d51
Lessler, Justin
37da6ebb-d802-4202-99eb-b183d5fbcede
Tatem, Andrew
6c6de104-a5f9-46e0-bb93-a1a7c980513e
Utazi, Chigozie Edson, Thorley, Julia, Alegana, Victor, Ferrari, Matthew, Takahashi, Saki, Metcalf, C. Jessica E., Lessler, Justin and Tatem, Andrew
(2018)
High resolution age-structured mapping of childhood vaccination coverage in low and middle income countries.
Vaccine, 36 (12), .
(doi:10.1016/j.vaccine.2018.02.020).
Abstract
Background
The expansion of childhood vaccination programs in low and middle income countries has been a substantial public health success story. Indicators of the performance of intervention programmes such as coverage levels and numbers covered are typically measured through national statistics or at the scale of large regions due to survey design, administrative convenience or operational limitations. These mask heterogeneities and ‘coldspots’ of low coverage that may allow diseases to persist, even if overall coverage is high. Hence, to decrease inequities and accelerate progress towards disease elimination goals, fine-scale variation in coverage should be better characterized.
Methods
Using measles as an example, cluster-level Demographic and Health Surveys (DHS) data were used to map vaccination coverage at 1 km spatial resolution in Cambodia, Mozambique and Nigeria for varying age-group categories of children under five years, using Bayesian geostatistical techniques built on a suite of publicly available geospatial covariates and implemented via Markov Chain Monte Carlo (MCMC) methods.
Results
Measles vaccination coverage was found to be strongly predicted by just 4–5 covariates in geostatistical models, with remoteness consistently selected as a key variable. The output 1 × 1 km maps revealed significant heterogeneities within the three countries that were not captured using province-level summaries. Integration with population data showed that at the time of the surveys, few districts attained the 80% coverage, that is one component of the WHO Global Vaccine Action Plan 2020 targets.
Conclusion
The elimination of vaccine-preventable diseases requires a strong evidence base to guide strategies and inform efficient use of limited resources. The approaches outlined here provide a route to moving beyond large area summaries of vaccination coverage that mask epidemiologically-important heterogeneities to detailed maps that capture subnational vulnerabilities. The output datasets are built on open data and methods, and in flexible format that can be aggregated to more operationally-relevant administrative unit levels.
Text
1-s2.0-S0264410X18301944-main
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More information
Accepted/In Press date: 2 February 2018
e-pub ahead of print date: 14 February 2018
Published date: 14 March 2018
Keywords:
Measles vaccine, Demographic and Health Surveys, Bayesian geostatistics, Coverage heterogeneities
Identifiers
Local EPrints ID: 418237
URI: http://eprints.soton.ac.uk/id/eprint/418237
ISSN: 0264-410X
PURE UUID: 648cdc0b-8ccd-4948-a38e-e48cdac1cf89
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Date deposited: 26 Feb 2018 17:30
Last modified: 16 Mar 2024 04:11
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Contributors
Author:
Julia Thorley
Author:
Matthew Ferrari
Author:
Saki Takahashi
Author:
C. Jessica E. Metcalf
Author:
Justin Lessler
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