Climate determines transmission hotspots of Polycystic Echinococcosis, a life-threatening zoonotic disease, across Pan-Amazonia

Adrià San-José; Pedro Mayor; Bruno Carvalho; Hani R. El Bizri; André Pinassi Antunes; Miguel Antunez Correa; Rolando Aquino; Richard E. Bodmer; Jean P. Boubli; Elildo A.R. Carvalho; João Vitor Campos-Silva; Pedro A.L. Constantino; Milton José de Paula; Arnauld L.J. Desbiez; Tula Fang; Luis A. Gomez-Puerta; Simon B. Knoop; Guillaume Longin; Thais Q. Morcatty; Louise Maranhão; Gabriel Favero Massocato; Daniel P. Munari; André Valle Nunes; Pablo Puertas; Marcela A. Oliveira; Juarez C.B. Pezzuti; Cécile Richard-Hansen; Geovanna Santos; João Valsecchi; Eduardo M. von Mühlen; John Bosmediano; Xavier Rodó

doi:10.1073/pnas.2302661120

Climate determines transmission hotspots of Polycystic Echinococcosis, a life-threatening zoonotic disease, across Pan-Amazonia

Adrià San-José^*, Pedro Mayor, Bruno Carvalho, Hani R. El Bizri, André Pinassi Antunes, Miguel Antunez Correa, Rolando Aquino, Richard E. Bodmer, Jean P. Boubli, Elildo A.R. Carvalho, João Vitor Campos-Silva, Pedro A.L. Constantino, Milton José de Paula, Arnauld L.J. Desbiez, Tula Fang, Luis A. Gomez-Puerta, Simon B. Knoop, Guillaume Longin, Thais Q. Morcatty, Louise MaranhãoGabriel Favero Massocato, Daniel P. Munari, André Valle Nunes, Pablo Puertas, Marcela A. Oliveira, Juarez C.B. Pezzuti, Cécile Richard-Hansen, Geovanna Santos, João Valsecchi, Eduardo M. von Mühlen, John Bosmediano, Xavier Rodó^*

^*Autor correspondiente de este trabajo

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Resumen

Polycystic Echinococcosis (PE), a neglected life-threatening zoonotic disease caused by the cestode Echinococcus vogeli, is endemic in the Amazon. Despite being treatable, PE reaches a case fatality rate of around 29% due to late or missed diagnosis. PE is sustained in Pan-Amazonia by a complex sylvatic cycle. The hunting of its infected intermediate hosts (especially the lowland paca Cuniculus paca) enables the disease to further transmit to humans, when their viscera are improperly handled. In this study, we compiled a unique dataset of host occurrences (~86000 records) and disease infections (~400 cases) covering the entire Pan-Amazonia and employed different modeling and statistical tools to unveil the spatial distribution of PE’s key animal hosts. Subsequently, we derived a set of ecological, environmental, climatic, and hunting covariates that potentially act as transmission risk factors and used them as predictors of two independent Maximum Entropy models, one for animal infections and one for human infections. Our findings indicate that temperature stability promotes the sylvatic circulation of the disease. Additionally, we show how El Niño-Southern Oscillation (ENSO) extreme events disrupt hunting patterns throughout Pan-Amazonia, ultimately affecting the probability of spillover. In a scenario where climate extremes are projected to intensify, climate change at regional level appears to be indirectly driving the spillover of E. vogeli. These results hold substantial implications for a wide range of zoonoses acquired at the wildlife-human interface for which transmission is related to the manipulation and consumption of wild meat, underscoring the pressing need for enhanced awareness and intervention strategies.

Idioma original	Inglés
Número de artículo	e2302661120
Número de páginas	10
Publicación	Proceedings of the National Academy of Sciences of the United States of America
Volumen	120
N.º	33
DOI	https://doi.org/10.1073/pnas.2302661120
Estado	Publicada - 7 ago 2023

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San-José, A., Mayor, P., Carvalho, B., El Bizri, H. R., Antunes, A. P., Correa, M. A., Aquino, R., Bodmer, R. E., Boubli, J. P., Carvalho, E. A. R., Campos-Silva, J. V., Constantino, P. A. L., de Paula, M. J., Desbiez, A. L. J., Fang, T., Gomez-Puerta, L. A., Knoop, S. B., Longin, G., Morcatty, T. Q., ... Rodó, X. (2023). Climate determines transmission hotspots of Polycystic Echinococcosis, a life-threatening zoonotic disease, across Pan-Amazonia. Proceedings of the National Academy of Sciences of the United States of America, 120(33), Artículo e2302661120. https://doi.org/10.1073/pnas.2302661120

@article{de11248240f34f40951b122473532fd9,

title = "Climate determines transmission hotspots of Polycystic Echinococcosis, a life-threatening zoonotic disease, across Pan-Amazonia",

abstract = "Polycystic Echinococcosis (PE), a neglected life-threatening zoonotic disease caused by the cestode Echinococcus vogeli, is endemic in the Amazon. Despite being treatable, PE reaches a case fatality rate of around 29% due to late or missed diagnosis. PE is sustained in Pan-Amazonia by a complex sylvatic cycle. The hunting of its infected intermediate hosts (especially the lowland paca Cuniculus paca) enables the disease to further transmit to humans, when their viscera are improperly handled. In this study, we compiled a unique dataset of host occurrences (~86000 records) and disease infections (~400 cases) covering the entire Pan-Amazonia and employed different modeling and statistical tools to unveil the spatial distribution of PE{\textquoteright}s key animal hosts. Subsequently, we derived a set of ecological, environmental, climatic, and hunting covariates that potentially act as transmission risk factors and used them as predictors of two independent Maximum Entropy models, one for animal infections and one for human infections. Our findings indicate that temperature stability promotes the sylvatic circulation of the disease. Additionally, we show how El Ni{\~n}o-Southern Oscillation (ENSO) extreme events disrupt hunting patterns throughout Pan-Amazonia, ultimately affecting the probability of spillover. In a scenario where climate extremes are projected to intensify, climate change at regional level appears to be indirectly driving the spillover of E. vogeli. These results hold substantial implications for a wide range of zoonoses acquired at the wildlife-human interface for which transmission is related to the manipulation and consumption of wild meat, underscoring the pressing need for enhanced awareness and intervention strategies.",

keywords = "Climate change, Enso, Modeling, Zoonotic diseases, Zoonotic spillover",

author = "Adri{\`a} San-Jos{\'e} and Pedro Mayor and Bruno Carvalho and {El Bizri}, {Hani R.} and Antunes, {Andr{\'e} Pinassi} and Correa, {Miguel Antunez} and Rolando Aquino and Bodmer, {Richard E.} and Boubli, {Jean P.} and Carvalho, {Elildo A.R.} and Campos-Silva, {Jo{\~a}o Vitor} and Constantino, {Pedro A.L.} and {de Paula}, {Milton Jos{\'e}} and Desbiez, {Arnauld L.J.} and Tula Fang and Gomez-Puerta, {Luis A.} and Knoop, {Simon B.} and Guillaume Longin and Morcatty, {Thais Q.} and Louise Maranh{\~a}o and Massocato, {Gabriel Favero} and Munari, {Daniel P.} and Nunes, {Andr{\'e} Valle} and Pablo Puertas and Oliveira, {Marcela A.} and Pezzuti, {Juarez C.B.} and C{\'e}cile Richard-Hansen and Geovanna Santos and Jo{\~a}o Valsecchi and {von M{\"u}hlen}, {Eduardo M.} and John Bosmediano and Xavier Rod{\'o}",

note = "Publisher Copyright: Copyright {\textcopyright} 2023 the Author(s). Published by PNAS. This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND).",

year = "2023",

month = aug,

day = "7",

doi = "10.1073/pnas.2302661120",

language = "English",

volume = "120",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

number = "33",

}

San-José, A, Mayor, P, Carvalho, B, El Bizri, HR, Antunes, AP, Correa, MA, Aquino, R, Bodmer, RE, Boubli, JP, Carvalho, EAR, Campos-Silva, JV, Constantino, PAL, de Paula, MJ, Desbiez, ALJ, Fang, T, Gomez-Puerta, LA, Knoop, SB, Longin, G, Morcatty, TQ, Maranhão, L, Massocato, GF, Munari, DP, Nunes, AV, Puertas, P, Oliveira, MA, Pezzuti, JCB, Richard-Hansen, C, Santos, G, Valsecchi, J, von Mühlen, EM, Bosmediano, J & Rodó, X 2023, 'Climate determines transmission hotspots of Polycystic Echinococcosis, a life-threatening zoonotic disease, across Pan-Amazonia', Proceedings of the National Academy of Sciences of the United States of America, vol. 120, n.º 33, e2302661120. https://doi.org/10.1073/pnas.2302661120

Climate determines transmission hotspots of Polycystic Echinococcosis, a life-threatening zoonotic disease, across Pan-Amazonia. / San-José, Adrià; Mayor, Pedro; Carvalho, Bruno et al.
En: Proceedings of the National Academy of Sciences of the United States of America, Vol. 120, N.º 33, e2302661120, 07.08.2023.

Producción científica: Contribución a una revista › Artículo › Investigación › revisión exhaustiva

TY - JOUR

T1 - Climate determines transmission hotspots of Polycystic Echinococcosis, a life-threatening zoonotic disease, across Pan-Amazonia

AU - San-José, Adrià

AU - Mayor, Pedro

AU - Carvalho, Bruno

AU - El Bizri, Hani R.

AU - Antunes, André Pinassi

AU - Correa, Miguel Antunez

AU - Aquino, Rolando

AU - Bodmer, Richard E.

AU - Boubli, Jean P.

AU - Carvalho, Elildo A.R.

AU - Campos-Silva, João Vitor

AU - Constantino, Pedro A.L.

AU - de Paula, Milton José

AU - Desbiez, Arnauld L.J.

AU - Fang, Tula

AU - Gomez-Puerta, Luis A.

AU - Knoop, Simon B.

AU - Longin, Guillaume

AU - Morcatty, Thais Q.

AU - Maranhão, Louise

AU - Massocato, Gabriel Favero

AU - Munari, Daniel P.

AU - Nunes, André Valle

AU - Puertas, Pablo

AU - Oliveira, Marcela A.

AU - Pezzuti, Juarez C.B.

AU - Richard-Hansen, Cécile

AU - Santos, Geovanna

AU - Valsecchi, João

AU - von Mühlen, Eduardo M.

AU - Bosmediano, John

AU - Rodó, Xavier

N1 - Publisher Copyright: Copyright © 2023 the Author(s). Published by PNAS. This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND).

PY - 2023/8/7

Y1 - 2023/8/7

N2 - Polycystic Echinococcosis (PE), a neglected life-threatening zoonotic disease caused by the cestode Echinococcus vogeli, is endemic in the Amazon. Despite being treatable, PE reaches a case fatality rate of around 29% due to late or missed diagnosis. PE is sustained in Pan-Amazonia by a complex sylvatic cycle. The hunting of its infected intermediate hosts (especially the lowland paca Cuniculus paca) enables the disease to further transmit to humans, when their viscera are improperly handled. In this study, we compiled a unique dataset of host occurrences (~86000 records) and disease infections (~400 cases) covering the entire Pan-Amazonia and employed different modeling and statistical tools to unveil the spatial distribution of PE’s key animal hosts. Subsequently, we derived a set of ecological, environmental, climatic, and hunting covariates that potentially act as transmission risk factors and used them as predictors of two independent Maximum Entropy models, one for animal infections and one for human infections. Our findings indicate that temperature stability promotes the sylvatic circulation of the disease. Additionally, we show how El Niño-Southern Oscillation (ENSO) extreme events disrupt hunting patterns throughout Pan-Amazonia, ultimately affecting the probability of spillover. In a scenario where climate extremes are projected to intensify, climate change at regional level appears to be indirectly driving the spillover of E. vogeli. These results hold substantial implications for a wide range of zoonoses acquired at the wildlife-human interface for which transmission is related to the manipulation and consumption of wild meat, underscoring the pressing need for enhanced awareness and intervention strategies.

AB - Polycystic Echinococcosis (PE), a neglected life-threatening zoonotic disease caused by the cestode Echinococcus vogeli, is endemic in the Amazon. Despite being treatable, PE reaches a case fatality rate of around 29% due to late or missed diagnosis. PE is sustained in Pan-Amazonia by a complex sylvatic cycle. The hunting of its infected intermediate hosts (especially the lowland paca Cuniculus paca) enables the disease to further transmit to humans, when their viscera are improperly handled. In this study, we compiled a unique dataset of host occurrences (~86000 records) and disease infections (~400 cases) covering the entire Pan-Amazonia and employed different modeling and statistical tools to unveil the spatial distribution of PE’s key animal hosts. Subsequently, we derived a set of ecological, environmental, climatic, and hunting covariates that potentially act as transmission risk factors and used them as predictors of two independent Maximum Entropy models, one for animal infections and one for human infections. Our findings indicate that temperature stability promotes the sylvatic circulation of the disease. Additionally, we show how El Niño-Southern Oscillation (ENSO) extreme events disrupt hunting patterns throughout Pan-Amazonia, ultimately affecting the probability of spillover. In a scenario where climate extremes are projected to intensify, climate change at regional level appears to be indirectly driving the spillover of E. vogeli. These results hold substantial implications for a wide range of zoonoses acquired at the wildlife-human interface for which transmission is related to the manipulation and consumption of wild meat, underscoring the pressing need for enhanced awareness and intervention strategies.

KW - Climate change

KW - Enso

KW - Modeling

KW - Zoonotic diseases

KW - Zoonotic spillover

UR - http://www.scopus.com/inward/record.url?scp=85173514868&partnerID=8YFLogxK

U2 - 10.1073/pnas.2302661120

DO - 10.1073/pnas.2302661120

M3 - Article

C2 - 37549288

AN - SCOPUS:85173514868

SN - 0027-8424

VL - 120

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 33

M1 - e2302661120

ER -

Climate determines transmission hotspots of Polycystic Echinococcosis, a life-threatening zoonotic disease, across Pan-Amazonia

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