Population mobility reductions associated with travel restrictions during the Ebola epidemic in Sierra Leone: Use of mobile phone data

Corey M. Peak; Amy Wesolowski; Elisabeth zu Erbach-Schoenberg; Andrew J. Tatem; Erik Wetter; Xin Lu; Daniel Power; Elaine Weidman-Grunewald; Sergio Ramos; Simon Moritz; Caroline O. Buckee; Linus Bengtsson

doi:10.1093/ije/dyy095

Population mobility reductions associated with travel restrictions during the Ebola epidemic in Sierra Leone: Use of mobile phone data

Corey M. Peak, Amy Wesolowski, Elisabeth zu Erbach-Schoenberg, Andrew J. Tatem, Erik Wetter, Xin Lu, Daniel Power, Elaine Weidman-Grunewald, Sergio Ramos, Simon Moritz, Caroline O. Buckee, Linus Bengtsson

Bloomberg School of Public Health

Research output: Contribution to journal › Article › peer-review

39 Scopus citations

Abstract

Background: Travel restrictions were implemented on an unprecedented scale in 2015 in Sierra Leone to contain and eliminate Ebola virus disease. However, the impact of epidemic travel restrictions on mobility itself remains difficult to measure with traditional methods. New ‘big data’ approaches using mobile phone data can provide, in near real-time, the type of information needed to guide and evaluate control measures. Methods: We analysed anonymous mobile phone call detail records (CDRs) from a leading operator in Sierra Leone between 20 March and 1 July in 2015. We used an anomaly detection algorithm to assess changes in travel during a national ‘stay at home’ lockdown from 27 to 29 March. To measure the magnitude of these changes and to assess effect modification by region and historical Ebola burden, we performed a time series analysis and a crossover analysis. Results: Routinely collected mobile phone data revealed a dramatic reduction in human mobility during a 3-day lockdown in Sierra Leone. The number of individuals relocating between chiefdoms decreased by 31% within 15 km, by 46% for 15–30 km and by 76% for distances greater than 30 km. This effect was highly heterogeneous in space, with higher impact in regions with higher Ebola incidence. Travel quickly returned to normal patterns after the restrictions were lifted. Conclusions: The effects of travel restrictions on mobility can be large, targeted and measurable in near real-time. With appropriate anonymization protocols, mobile phone data should play a central role in guiding and monitoring interventions for epidemic containment.

Original language	English (US)
Pages (from-to)	1562-1570
Number of pages	9
Journal	International journal of epidemiology
Volume	47
Issue number	5
DOIs	https://doi.org/10.1093/ije/dyy095
State	Published - Oct 1 2018

Keywords

Big data
Ebola epidemic
Human mobility
Mobile phone data
Population mobility
Quarantine
Sierra Leone
Travel restrictions

ASJC Scopus subject areas

Epidemiology

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10.1093/ije/dyy095

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Peak, C. M., Wesolowski, A., Erbach-Schoenberg, E. Z., Tatem, A. J., Wetter, E., Lu, X., Power, D., Weidman-Grunewald, E., Ramos, S., Moritz, S., Buckee, C. O., & Bengtsson, L. (2018). Population mobility reductions associated with travel restrictions during the Ebola epidemic in Sierra Leone: Use of mobile phone data. International journal of epidemiology, 47(5), 1562-1570. https://doi.org/10.1093/ije/dyy095

Peak, CM, Wesolowski, A, Erbach-Schoenberg, EZ, Tatem, AJ, Wetter, E, Lu, X, Power, D, Weidman-Grunewald, E, Ramos, S, Moritz, S, Buckee, CO & Bengtsson, L 2018, 'Population mobility reductions associated with travel restrictions during the Ebola epidemic in Sierra Leone: Use of mobile phone data', International journal of epidemiology, vol. 47, no. 5, pp. 1562-1570. https://doi.org/10.1093/ije/dyy095

@article{1457506a0bd847dc8ca8a347ce11f118,

title = "Population mobility reductions associated with travel restrictions during the Ebola epidemic in Sierra Leone: Use of mobile phone data",

abstract = "Background: Travel restrictions were implemented on an unprecedented scale in 2015 in Sierra Leone to contain and eliminate Ebola virus disease. However, the impact of epidemic travel restrictions on mobility itself remains difficult to measure with traditional methods. New {\textquoteleft}big data{\textquoteright} approaches using mobile phone data can provide, in near real-time, the type of information needed to guide and evaluate control measures. Methods: We analysed anonymous mobile phone call detail records (CDRs) from a leading operator in Sierra Leone between 20 March and 1 July in 2015. We used an anomaly detection algorithm to assess changes in travel during a national {\textquoteleft}stay at home{\textquoteright} lockdown from 27 to 29 March. To measure the magnitude of these changes and to assess effect modification by region and historical Ebola burden, we performed a time series analysis and a crossover analysis. Results: Routinely collected mobile phone data revealed a dramatic reduction in human mobility during a 3-day lockdown in Sierra Leone. The number of individuals relocating between chiefdoms decreased by 31% within 15 km, by 46% for 15–30 km and by 76% for distances greater than 30 km. This effect was highly heterogeneous in space, with higher impact in regions with higher Ebola incidence. Travel quickly returned to normal patterns after the restrictions were lifted. Conclusions: The effects of travel restrictions on mobility can be large, targeted and measurable in near real-time. With appropriate anonymization protocols, mobile phone data should play a central role in guiding and monitoring interventions for epidemic containment.",

keywords = "Big data, Ebola epidemic, Human mobility, Mobile phone data, Population mobility, Quarantine, Sierra Leone, Travel restrictions",

author = "Peak, {Corey M.} and Amy Wesolowski and Erbach-Schoenberg, {Elisabeth zu} and Tatem, {Andrew J.} and Erik Wetter and Xin Lu and Daniel Power and Elaine Weidman-Grunewald and Sergio Ramos and Simon Moritz and Buckee, {Caroline O.} and Linus Bengtsson",

note = "Funding Information: This work was supported by the National Institute of General Medical Sciences [U54GM088558]; National Research Service Award [T32AI007535–16A]; Wellcome Trust Sustaining Health Funding Information: Grant [106866/Z/15/Z]; and the Swedish Research Council [D0313701]. A.W. holds a Career Award at the Scientific Interface from the Burroughs Wellcome Fund. X.L. was partially supported by the Natural Science Foundation of China [71522014]. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute of General Medical Sciences nor of the National Institutes of Health. The funders of the study had no role in study design, data collection, data analysis, data interpretation or writing of the report. Funding Information: This work was supported by the National Institute of General Medical Sciences [U54GM088558]; National Research Service Award [T32AI007535–16A]; Wellcome Trust Sustaining Health Grant [106866/Z/15/Z]; and the Swedish Research Council [D0313701]. A.W. holds a Career Award at the Scientific Interface from the Burroughs Wellcome Fund. X.L. was partially supported by the Natural Science Foundation of China [71522014]. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute of General Medical Sciences nor of the National Institutes of Health. The fun-ders of the study had no role in study design, data collection, data analysis, data interpretation or writing of the report. Publisher Copyright: {\textcopyright}The Author(s) 2018.",

year = "2018",

month = oct,

day = "1",

doi = "10.1093/ije/dyy095",

language = "English (US)",

volume = "47",

pages = "1562--1570",

journal = "International journal of epidemiology",

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number = "5",

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TY - JOUR

T1 - Population mobility reductions associated with travel restrictions during the Ebola epidemic in Sierra Leone

T2 - Use of mobile phone data

AU - Peak, Corey M.

AU - Wesolowski, Amy

AU - Erbach-Schoenberg, Elisabeth zu

AU - Tatem, Andrew J.

AU - Wetter, Erik

AU - Lu, Xin

AU - Power, Daniel

AU - Weidman-Grunewald, Elaine

AU - Ramos, Sergio

AU - Moritz, Simon

AU - Buckee, Caroline O.

AU - Bengtsson, Linus

N1 - Funding Information: This work was supported by the National Institute of General Medical Sciences [U54GM088558]; National Research Service Award [T32AI007535–16A]; Wellcome Trust Sustaining Health Funding Information: Grant [106866/Z/15/Z]; and the Swedish Research Council [D0313701]. A.W. holds a Career Award at the Scientific Interface from the Burroughs Wellcome Fund. X.L. was partially supported by the Natural Science Foundation of China [71522014]. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute of General Medical Sciences nor of the National Institutes of Health. The funders of the study had no role in study design, data collection, data analysis, data interpretation or writing of the report. Funding Information: This work was supported by the National Institute of General Medical Sciences [U54GM088558]; National Research Service Award [T32AI007535–16A]; Wellcome Trust Sustaining Health Grant [106866/Z/15/Z]; and the Swedish Research Council [D0313701]. A.W. holds a Career Award at the Scientific Interface from the Burroughs Wellcome Fund. X.L. was partially supported by the Natural Science Foundation of China [71522014]. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute of General Medical Sciences nor of the National Institutes of Health. The fun-ders of the study had no role in study design, data collection, data analysis, data interpretation or writing of the report. Publisher Copyright: ©The Author(s) 2018.

PY - 2018/10/1

Y1 - 2018/10/1

N2 - Background: Travel restrictions were implemented on an unprecedented scale in 2015 in Sierra Leone to contain and eliminate Ebola virus disease. However, the impact of epidemic travel restrictions on mobility itself remains difficult to measure with traditional methods. New ‘big data’ approaches using mobile phone data can provide, in near real-time, the type of information needed to guide and evaluate control measures. Methods: We analysed anonymous mobile phone call detail records (CDRs) from a leading operator in Sierra Leone between 20 March and 1 July in 2015. We used an anomaly detection algorithm to assess changes in travel during a national ‘stay at home’ lockdown from 27 to 29 March. To measure the magnitude of these changes and to assess effect modification by region and historical Ebola burden, we performed a time series analysis and a crossover analysis. Results: Routinely collected mobile phone data revealed a dramatic reduction in human mobility during a 3-day lockdown in Sierra Leone. The number of individuals relocating between chiefdoms decreased by 31% within 15 km, by 46% for 15–30 km and by 76% for distances greater than 30 km. This effect was highly heterogeneous in space, with higher impact in regions with higher Ebola incidence. Travel quickly returned to normal patterns after the restrictions were lifted. Conclusions: The effects of travel restrictions on mobility can be large, targeted and measurable in near real-time. With appropriate anonymization protocols, mobile phone data should play a central role in guiding and monitoring interventions for epidemic containment.

AB - Background: Travel restrictions were implemented on an unprecedented scale in 2015 in Sierra Leone to contain and eliminate Ebola virus disease. However, the impact of epidemic travel restrictions on mobility itself remains difficult to measure with traditional methods. New ‘big data’ approaches using mobile phone data can provide, in near real-time, the type of information needed to guide and evaluate control measures. Methods: We analysed anonymous mobile phone call detail records (CDRs) from a leading operator in Sierra Leone between 20 March and 1 July in 2015. We used an anomaly detection algorithm to assess changes in travel during a national ‘stay at home’ lockdown from 27 to 29 March. To measure the magnitude of these changes and to assess effect modification by region and historical Ebola burden, we performed a time series analysis and a crossover analysis. Results: Routinely collected mobile phone data revealed a dramatic reduction in human mobility during a 3-day lockdown in Sierra Leone. The number of individuals relocating between chiefdoms decreased by 31% within 15 km, by 46% for 15–30 km and by 76% for distances greater than 30 km. This effect was highly heterogeneous in space, with higher impact in regions with higher Ebola incidence. Travel quickly returned to normal patterns after the restrictions were lifted. Conclusions: The effects of travel restrictions on mobility can be large, targeted and measurable in near real-time. With appropriate anonymization protocols, mobile phone data should play a central role in guiding and monitoring interventions for epidemic containment.

KW - Big data

KW - Ebola epidemic

KW - Human mobility

KW - Mobile phone data

KW - Population mobility

KW - Quarantine

KW - Sierra Leone

KW - Travel restrictions

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JO - International journal of epidemiology

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Population mobility reductions associated with travel restrictions during the Ebola epidemic in Sierra Leone: Use of mobile phone data

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