バージニア工科大学の数理生物学者が国際チームと協力してデング熱発生の増加を分析(Virginia Tech mathematical biologist works with international team to analyze rise in dengue outbreaks)

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2024-07-12 バージニア工科大学(VirginiaTech)

蚊は毎年約70万人の死因となる世界で最も致命的な動物です。マイケル・ロバート教授(バージニア工科大学)は、デング熱に注目しています。デング熱は熱帯・亜熱帯地域で増加しており、2023年には世界で650万件、2024年にはアメリカ大陸で700万件を超えました。ロバート教授は、国際チームと共に気候変動がデング熱の拡大にどう影響しているかを調査しています。気候変動により、蚊の生息地が拡大し、デング熱の発生が増加しています。彼の研究チームは、高校生の市民科学者と協力して蚊のデータを収集し、デング熱の早期警告システムを構築することを目指しています。このプロジェクトは、アルゼンチンの2つの都市で始まり、今後さらに拡大する予定です。

<関連情報>

アルゼンチンにおける気候変動とデング熱発生率の関係 Relationship between Climate Variables and Dengue Incidence in Argentina

María S. López, Andre A. Gómez, Gabriela V. Müller, Elisabet Walker, Michael A. Robert, and Elizabet L. Estallo
Environmental Health Perspectives  Published:24 May 2023
DOI:https://doi.org/10.1289/EHP11616

バージニア工科大学の数理生物学者が国際チームと協力してデング熱発生の増加を分析(Virginia Tech mathematical biologist works with international team to analyze rise in dengue outbreaks)

Abstract

Background:
Climate change is an important driver of the increased spread of dengue from tropical and subtropical regions to temperate areas around the world. Climate variables such as temperature and precipitation influence the dengue vector’s biology, physiology, abundance, and life cycle. Thus, an analysis is needed of changes in climate change and their possible relationships with dengue incidence and the growing occurrence of epidemics recorded in recent decades.

Objectives:
This study aimed to assess the increasing incidence of dengue driven by climate change at the southern limits of dengue virus transmission in South America.

Methods:
We analyzed the evolution of climatological, epidemiological, and biological variables by comparing a period of time without the presence of dengue cases (1976–1997) to a more recent period of time in which dengue cases and important outbreaks occurred (1998–2020). In our analysis, we consider climate variables associated with temperature and precipitation, epidemiological variables such as the number of reported dengue cases and incidence of dengue, and biological variables such as the optimal temperature ranges for transmission of dengue vector.

Results:
The presence of dengue cases and epidemic outbreaks are observed to be consistent with positive trends in temperature and anomalies from long-term means. Dengue cases do not seem to be associated with precipitation trends and anomalies. The number of days with optimal temperatures for dengue transmission increased from the period without dengue cases to the period with occurrences of dengue cases. The number of months with optimal transmission temperatures also increased between periods but to a lesser extent.

Conclusions:
The higher incidence of dengue virus and its expansion to different regions of Argentina seem to be associated with temperature increases in the country during the past two decades. The active surveillance of both the vector and associated arboviruses, together with continued meteorological data collection, will facilitate the assessment and prediction of future epidemics that use trends in the accelerated changes in climate. Such surveillance should go hand in hand with efforts to improve the understanding of the mechanisms driving the geographic expansion of dengue and other arboviruses beyond the current limits. https://doi.org/10.1289/EHP11616

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