Synchronized dynamics of dengue across the Americas

Talia M. Quandelacy; Maria F. Vincente-González; Maria Eugenia Grillet; Manuel Colomé-Hidalgo; Demian Herrera; Jomil M. Torres Aponte; Melissa Marzán Rodríguez; Laura E. Adams; Gabriela Paz-Bailey; Dania M. Rodriguez; César Munayco; Laura Figueroa; Rolando Masis; Mercy Borbor-Cordova; Esteban Ortiz-Prado; Matias Piaggio; Leslie Rollock; Guillermo Barrenechea; Aníbal Carbajo; Elizabet L. Estallo; Thais dos Santos; Michael A. Robert; Isabel Rodriguez-Barraquer; Rachel Lowe; Anna M. Stewart-Ibarra; Bernardo Garcia-Carreras; Derek Cummings; Michael A. Johansson

doi:10.1126/scitranslmed.adq4326

Synchronized dynamics of dengue across the Americas

Talia M. Quandelacy
, Maria F. Vincente-González
, Maria Eugenia Grillet
, Manuel Colomé-Hidalgo
, Demian Herrera
, Jomil M. Torres Aponte
, Melissa Marzán Rodríguez
, Laura E. Adams
, Gabriela Paz-Bailey
, Dania M. Rodriguez
, César Munayco
, Laura Figueroa
, Rolando Masis
, Mercy Borbor-Cordova
, Esteban Ortiz-Prado
, Matias Piaggio
, Leslie Rollock
, Guillermo Barrenechea
, Aníbal Carbajo
, Elizabet L. Estallo

Thais dos Santos, Michael A. Robert, Isabel Rodriguez-Barraquer, Rachel Lowe, Anna M. Stewart-Ibarra, Bernardo Garcia-Carreras, Derek Cummings, Michael A. Johansson

Colorado School of Public Health
Centers for Disease Control and Prevention
University of Groningen
Université libre de Bruxelles
Universidad Central de Venezuela
Santo Domingo Institute of Technology
Hospital Pediátrico Dr. Hugo Mendoza
Puerto Rico Department of Health
Ministerio de Salud, Lima
Ministry of Health
Ministry of Health
Escuela Superior Politécnica del Litoral
Universidad de las Américas - Ecuador
International Union for Conservation of Nature
Ministry of Health and Wellness
Ministry of Health of Neuquén
Instituto Oswaldo Cruz
Universidad Nacional de San Martin
Universidad Nacional de Córdoba
World Health Organization
Virginia Tech
University of California at San Francisco
Barcelona Supercomputing Center (BSC)
ICREA
London School of Hygiene and Tropical Medicine
Inter-American Institute for Global Change Research
University of Florida
Johns Hopkins University
Northeastern University

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

2 Scopus citations

Abstract

Dengue is endemic throughout the tropical areas of the Americas, but little is known about its regional dynamics. We examined seasonal and multiannual dengue trends across the Americas and possible underlying mechanisms using monthly dengue surveillance data from 14 countries. We collected monthly dengue case data from 241 subnational locations in 14 countries, ranging from 1985 to 2018 (6 to 22 years), and used wavelet analysis to isolate seasonal (8 to 16 months) and multiannual (17+ months) patterns. For each location, we assessed seasonal and multiannual dynamics as well as coherence and differences in timing of dengue cycles between 22,578 location pairs. We assessed patterns in coherence over time and space and compared these patterns to variations in temperature, rainfall, and El Niño Southern Oscillation patterns. Strong synchrony in dengue dynamics was identified across the region at the seasonal and multiannual scales. Seasonal dengue dynamics were associated with local climate patterns and dengue dynamics in nearby locations. High synchrony at multiannual scales indicated that large dengue epidemics were shared across the region, with an average temporal lag of only 6 months at distances of up to 10,000 kilometers. Synchrony of these epidemics likely reflects both regional climate variability and human movement. Observed dengue dynamics were not unique to individual countries in the Americas but rather extended across the region reflecting climatic and nonclimatic drivers. These findings can support the development of better early warning tools to support epidemic preparedness and response and underscore the importance of working collaboratively across borders.

Original language	English
Article number	eadq4326
Journal	Science translational medicine
Volume	17
Issue number	812
DOIs	https://doi.org/10.1126/scitranslmed.adq4326
State	Published - 20 Aug 2025
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 13 Climate Action

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10.1126/scitranslmed.adq4326

Cite this

Quandelacy, T. M., Vincente-González, M. F., Grillet, M. E., Colomé-Hidalgo, M., Herrera, D., Torres Aponte, J. M., Rodríguez, M. M., Adams, L. E., Paz-Bailey, G., Rodriguez, D. M., Munayco, C., Figueroa, L., Masis, R., Borbor-Cordova, M., Ortiz-Prado, E., Piaggio, M., Rollock, L., Barrenechea, G., Carbajo, A., ... Johansson, M. A. (2025). Synchronized dynamics of dengue across the Americas. Science translational medicine, 17(812), Article eadq4326. https://doi.org/10.1126/scitranslmed.adq4326

@article{0fa49358b3704603837105fd3c18e320,

title = "Synchronized dynamics of dengue across the Americas",

abstract = "Dengue is endemic throughout the tropical areas of the Americas, but little is known about its regional dynamics. We examined seasonal and multiannual dengue trends across the Americas and possible underlying mechanisms using monthly dengue surveillance data from 14 countries. We collected monthly dengue case data from 241 subnational locations in 14 countries, ranging from 1985 to 2018 (6 to 22 years), and used wavelet analysis to isolate seasonal (8 to 16 months) and multiannual (17+ months) patterns. For each location, we assessed seasonal and multiannual dynamics as well as coherence and differences in timing of dengue cycles between 22,578 location pairs. We assessed patterns in coherence over time and space and compared these patterns to variations in temperature, rainfall, and El Ni{\~n}o Southern Oscillation patterns. Strong synchrony in dengue dynamics was identified across the region at the seasonal and multiannual scales. Seasonal dengue dynamics were associated with local climate patterns and dengue dynamics in nearby locations. High synchrony at multiannual scales indicated that large dengue epidemics were shared across the region, with an average temporal lag of only 6 months at distances of up to 10,000 kilometers. Synchrony of these epidemics likely reflects both regional climate variability and human movement. Observed dengue dynamics were not unique to individual countries in the Americas but rather extended across the region reflecting climatic and nonclimatic drivers. These findings can support the development of better early warning tools to support epidemic preparedness and response and underscore the importance of working collaboratively across borders.",

author = "Quandelacy, \{Talia M.\} and Vincente-Gonz{\'a}lez, \{Maria F.\} and Grillet, \{Maria Eugenia\} and Manuel Colom{\'e}-Hidalgo and Demian Herrera and \{Torres Aponte\}, \{Jomil M.\} and Rodr{\'i}guez, \{Melissa Marz{\'a}n\} and Adams, \{Laura E.\} and Gabriela Paz-Bailey and Rodriguez, \{Dania M.\} and C{\'e}sar Munayco and Laura Figueroa and Rolando Masis and Mercy Borbor-Cordova and Esteban Ortiz-Prado and Matias Piaggio and Leslie Rollock and Guillermo Barrenechea and An{\'i}bal Carbajo and Estallo, \{Elizabet L.\} and \{dos Santos\}, Thais and Robert, \{Michael A.\} and Isabel Rodriguez-Barraquer and Rachel Lowe and Stewart-Ibarra, \{Anna M.\} and Bernardo Garcia-Carreras and Derek Cummings and Johansson, \{Michael A.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 The Authors, some rights reserved;",

year = "2025",

month = aug,

day = "20",

doi = "10.1126/scitranslmed.adq4326",

language = "Ingl{\'e}s",

volume = "17",

journal = "Science translational medicine",

issn = "1946-6234",

publisher = "American Association for the Advancement of Science",

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Quandelacy, TM, Vincente-González, MF, Grillet, ME, Colomé-Hidalgo, M, Herrera, D, Torres Aponte, JM, Rodríguez, MM, Adams, LE, Paz-Bailey, G, Rodriguez, DM, Munayco, C, Figueroa, L, Masis, R, Borbor-Cordova, M, Ortiz-Prado, E, Piaggio, M, Rollock, L, Barrenechea, G, Carbajo, A, Estallo, EL, dos Santos, T, Robert, MA, Rodriguez-Barraquer, I, Lowe, R, Stewart-Ibarra, AM, Garcia-Carreras, B, Cummings, D & Johansson, MA 2025, 'Synchronized dynamics of dengue across the Americas', Science translational medicine, vol. 17, no. 812, eadq4326. https://doi.org/10.1126/scitranslmed.adq4326

TY - JOUR

T1 - Synchronized dynamics of dengue across the Americas

AU - Quandelacy, Talia M.

AU - Vincente-González, Maria F.

AU - Grillet, Maria Eugenia

AU - Colomé-Hidalgo, Manuel

AU - Herrera, Demian

AU - Torres Aponte, Jomil M.

AU - Rodríguez, Melissa Marzán

AU - Adams, Laura E.

AU - Paz-Bailey, Gabriela

AU - Rodriguez, Dania M.

AU - Munayco, César

AU - Figueroa, Laura

AU - Masis, Rolando

AU - Borbor-Cordova, Mercy

AU - Ortiz-Prado, Esteban

AU - Piaggio, Matias

AU - Rollock, Leslie

AU - Barrenechea, Guillermo

AU - Carbajo, Aníbal

AU - Estallo, Elizabet L.

AU - dos Santos, Thais

AU - Robert, Michael A.

AU - Rodriguez-Barraquer, Isabel

AU - Lowe, Rachel

AU - Stewart-Ibarra, Anna M.

AU - Garcia-Carreras, Bernardo

AU - Cummings, Derek

AU - Johansson, Michael A.

PY - 2025/8/20

Y1 - 2025/8/20

N2 - Dengue is endemic throughout the tropical areas of the Americas, but little is known about its regional dynamics. We examined seasonal and multiannual dengue trends across the Americas and possible underlying mechanisms using monthly dengue surveillance data from 14 countries. We collected monthly dengue case data from 241 subnational locations in 14 countries, ranging from 1985 to 2018 (6 to 22 years), and used wavelet analysis to isolate seasonal (8 to 16 months) and multiannual (17+ months) patterns. For each location, we assessed seasonal and multiannual dynamics as well as coherence and differences in timing of dengue cycles between 22,578 location pairs. We assessed patterns in coherence over time and space and compared these patterns to variations in temperature, rainfall, and El Niño Southern Oscillation patterns. Strong synchrony in dengue dynamics was identified across the region at the seasonal and multiannual scales. Seasonal dengue dynamics were associated with local climate patterns and dengue dynamics in nearby locations. High synchrony at multiannual scales indicated that large dengue epidemics were shared across the region, with an average temporal lag of only 6 months at distances of up to 10,000 kilometers. Synchrony of these epidemics likely reflects both regional climate variability and human movement. Observed dengue dynamics were not unique to individual countries in the Americas but rather extended across the region reflecting climatic and nonclimatic drivers. These findings can support the development of better early warning tools to support epidemic preparedness and response and underscore the importance of working collaboratively across borders.

AB - Dengue is endemic throughout the tropical areas of the Americas, but little is known about its regional dynamics. We examined seasonal and multiannual dengue trends across the Americas and possible underlying mechanisms using monthly dengue surveillance data from 14 countries. We collected monthly dengue case data from 241 subnational locations in 14 countries, ranging from 1985 to 2018 (6 to 22 years), and used wavelet analysis to isolate seasonal (8 to 16 months) and multiannual (17+ months) patterns. For each location, we assessed seasonal and multiannual dynamics as well as coherence and differences in timing of dengue cycles between 22,578 location pairs. We assessed patterns in coherence over time and space and compared these patterns to variations in temperature, rainfall, and El Niño Southern Oscillation patterns. Strong synchrony in dengue dynamics was identified across the region at the seasonal and multiannual scales. Seasonal dengue dynamics were associated with local climate patterns and dengue dynamics in nearby locations. High synchrony at multiannual scales indicated that large dengue epidemics were shared across the region, with an average temporal lag of only 6 months at distances of up to 10,000 kilometers. Synchrony of these epidemics likely reflects both regional climate variability and human movement. Observed dengue dynamics were not unique to individual countries in the Americas but rather extended across the region reflecting climatic and nonclimatic drivers. These findings can support the development of better early warning tools to support epidemic preparedness and response and underscore the importance of working collaboratively across borders.

UR - https://www.scopus.com/pages/publications/105015124549

U2 - 10.1126/scitranslmed.adq4326

DO - 10.1126/scitranslmed.adq4326

M3 - Artículo

C2 - 40834100

AN - SCOPUS:105015124549

SN - 1946-6234

VL - 17

JO - Science translational medicine

JF - Science translational medicine

IS - 812

M1 - eadq4326

ER -

Synchronized dynamics of dengue across the Americas

Abstract

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