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Comparing and integrating human mobility data sources for measles transmission modeling in Zambia

Comparing and integrating human mobility data sources for measles transmission modeling in Zambia
Comparing and integrating human mobility data sources for measles transmission modeling in Zambia
Quantifying population mobility is crucial in developing accurate models of infectious disease dynamics. Increasingly, multiple data sources are available to describe individual and population mobility in a single location; however, there are no methods to systematically integrate these data. Combining information from these data sets may be valuable and help mitigate inherent biases in each data set due to sampling, censoring, and recall. We examined four commonly used data sources (mobile phone records, travel survey, Demographic and Health Survey, and Facebook location information) to quantify subnational travel patterns in Zambia. First, we explored summary metrics of mobility from each data set. Estimates of the probability of a trip and location of travel varied across data sets, with some data quantifying twice the frequency of travel as others. Then, we developed a departure-diffusion model that is able to produce a single estimate of travel by combining these data sets. When multi-data set models included mobile phone records, this data source dominated estimates given the broader spatial coverage. We then used a metapopulation model to simulate a measles outbreak to identify how these different data sets and models would impact estimates of the spatial spread of a highly infectious disease. We found that using travel survey data to parameterize mobility resulted in the introduction of cases in 98% of districts compared to less than 50% when mobile phone data or Facebook data were used. This study highlights the need for methods that facilitate integrating multiple data sets to improve validity of mobility estimates and resultant infectious disease transmission dynamics.
2767-3375
e0003906
Kostandova, Natalya
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Prosperi, Christine
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Mutembo, Simon
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Nakazwe, Chola
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Namukoko, Harriet
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Nachinga, Bertha
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Lai, Shengjie
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Tatem, Andrew J
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Duan, Qianwen
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Kabalo, Elliot N
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Makungo, Kabondo
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Chongwe, Gershom
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Chilumba, Innocent
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Musukwa, Gloria
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Matakala, Kalumbu H
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Hamahuwa, Mutinta
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Mufwambi, Webster
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Matoba, Japhet
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Mutale, Irene
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Situtu, Kenny
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Simulundu, Edgar
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Ndubani, Phillimon
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Hasan, Alvira Z
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Truelove, Shaun A
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Winter, Amy K
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Carcelen, Andrea C
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Lau, Bryan
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Moss, William J
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Wesolowski, Amy
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Kostandova, Natalya
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Prosperi, Christine
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Mutembo, Simon
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Nakazwe, Chola
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Namukoko, Harriet
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Nachinga, Bertha
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Lai, Shengjie
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Tatem, Andrew J
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Duan, Qianwen
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Kabalo, Elliot N
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Makungo, Kabondo
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Chongwe, Gershom
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Chilumba, Innocent
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Musukwa, Gloria
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Matakala, Kalumbu H
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Hamahuwa, Mutinta
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Mufwambi, Webster
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Matoba, Japhet
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Mutale, Irene
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Situtu, Kenny
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Simulundu, Edgar
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Ndubani, Phillimon
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Hasan, Alvira Z
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Truelove, Shaun A
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Winter, Amy K
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Carcelen, Andrea C
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Lau, Bryan
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Moss, William J
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Wesolowski, Amy
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Kostandova, Natalya, Prosperi, Christine, Mutembo, Simon, Nakazwe, Chola, Namukoko, Harriet, Nachinga, Bertha, Lai, Shengjie, Tatem, Andrew J, Duan, Qianwen, Kabalo, Elliot N, Makungo, Kabondo, Chongwe, Gershom, Chilumba, Innocent, Musukwa, Gloria, Matakala, Kalumbu H, Hamahuwa, Mutinta, Mufwambi, Webster, Matoba, Japhet, Mutale, Irene, Situtu, Kenny, Simulundu, Edgar, Ndubani, Phillimon, Hasan, Alvira Z, Truelove, Shaun A, Winter, Amy K, Carcelen, Andrea C, Lau, Bryan, Moss, William J and Wesolowski, Amy (2025) Comparing and integrating human mobility data sources for measles transmission modeling in Zambia. PLOS Global Public Health, 5 (5), e0003906, [e0003906]. (doi:10.1371/journal.pgph.0003906).

Record type: Article

Abstract

Quantifying population mobility is crucial in developing accurate models of infectious disease dynamics. Increasingly, multiple data sources are available to describe individual and population mobility in a single location; however, there are no methods to systematically integrate these data. Combining information from these data sets may be valuable and help mitigate inherent biases in each data set due to sampling, censoring, and recall. We examined four commonly used data sources (mobile phone records, travel survey, Demographic and Health Survey, and Facebook location information) to quantify subnational travel patterns in Zambia. First, we explored summary metrics of mobility from each data set. Estimates of the probability of a trip and location of travel varied across data sets, with some data quantifying twice the frequency of travel as others. Then, we developed a departure-diffusion model that is able to produce a single estimate of travel by combining these data sets. When multi-data set models included mobile phone records, this data source dominated estimates given the broader spatial coverage. We then used a metapopulation model to simulate a measles outbreak to identify how these different data sets and models would impact estimates of the spatial spread of a highly infectious disease. We found that using travel survey data to parameterize mobility resulted in the introduction of cases in 98% of districts compared to less than 50% when mobile phone data or Facebook data were used. This study highlights the need for methods that facilitate integrating multiple data sets to improve validity of mobility estimates and resultant infectious disease transmission dynamics.

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journal.pgph.0003906 - Version of Record
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Submitted date: 23 July 2024
Accepted/In Press date: 9 April 2025
Published date: 20 May 2025
Additional Information: Copyright: © 2025 Kostandova et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Identifiers

Local EPrints ID: 501618
URI: http://eprints.soton.ac.uk/id/eprint/501618
DOI: doi:10.1371/journal.pgph.0003906
ISSN: 2767-3375
PURE UUID: 31708a9d-bd51-41cb-925e-93ef58084410
ORCID for Shengjie Lai: ORCID iD orcid.org/0000-0001-9781-8148
ORCID for Andrew J Tatem: ORCID iD orcid.org/0000-0002-7270-941X
ORCID for Qianwen Duan: ORCID iD orcid.org/0000-0003-4342-5044

Catalogue record

Date deposited: 04 Jun 2025 16:54
Last modified: 03 Sep 2025 02:06

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Contributors

Author: Natalya Kostandova
Author: Christine Prosperi
Author: Simon Mutembo
Author: Chola Nakazwe
Author: Harriet Namukoko
Author: Bertha Nachinga
Author: Shengjie Lai ORCID iD
Author: Andrew J Tatem ORCID iD
Author: Qianwen Duan ORCID iD
Author: Elliot N Kabalo
Author: Kabondo Makungo
Author: Gershom Chongwe
Author: Innocent Chilumba
Author: Gloria Musukwa
Author: Kalumbu H Matakala
Author: Mutinta Hamahuwa
Author: Webster Mufwambi
Author: Japhet Matoba
Author: Irene Mutale
Author: Kenny Situtu
Author: Edgar Simulundu
Author: Phillimon Ndubani
Author: Alvira Z Hasan
Author: Shaun A Truelove
Author: Amy K Winter
Author: Andrea C Carcelen
Author: Bryan Lau
Author: William J Moss
Author: Amy Wesolowski

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