The driver of dengue fever incidence in two high-risk areas of China: A comparative study

In China, the knowledge of the underlying causes of heterogeneous distribution pattern of dengue fever in different high-risk areas is limited. A comparative study will help us understand the influencing factors of dengue in different high-risk areas. In the study, we compared the effects of climate...

Descripción completa

Detalles Bibliográficos
Autores principales: Liu, Keke, Hou, Xiang, Wang, Yiguan, Sun, Jimin, Xiao, Jianpeng, Li, Ruiyun, Lu, Liang, Xu, Lei, Sang, Shaowei, Hu, Jianxiong, Wu, Haixia, Song, Xiuping, Zhao, Ning, Yan, Dongming, Li, Jing, Liu, Xiaobo, Liu, Qiyong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6925307/
https://www.ncbi.nlm.nih.gov/pubmed/31862993
http://dx.doi.org/10.1038/s41598-019-56112-8
_version_ 1783481894012190720
author Liu, Keke
Hou, Xiang
Wang, Yiguan
Sun, Jimin
Xiao, Jianpeng
Li, Ruiyun
Lu, Liang
Xu, Lei
Sang, Shaowei
Hu, Jianxiong
Wu, Haixia
Song, Xiuping
Zhao, Ning
Yan, Dongming
Li, Jing
Liu, Xiaobo
Liu, Qiyong
author_facet Liu, Keke
Hou, Xiang
Wang, Yiguan
Sun, Jimin
Xiao, Jianpeng
Li, Ruiyun
Lu, Liang
Xu, Lei
Sang, Shaowei
Hu, Jianxiong
Wu, Haixia
Song, Xiuping
Zhao, Ning
Yan, Dongming
Li, Jing
Liu, Xiaobo
Liu, Qiyong
author_sort Liu, Keke
collection PubMed
description In China, the knowledge of the underlying causes of heterogeneous distribution pattern of dengue fever in different high-risk areas is limited. A comparative study will help us understand the influencing factors of dengue in different high-risk areas. In the study, we compared the effects of climate, mosquito density and imported cases on dengue fever in two high-risk areas using Generalized Additive Model (GAM), random forests and Structural Equation Model (SEM). GAM analysis identified a similar positive correlation between imported cases, density of Aedes larvae, climate variables and dengue fever occurrence in the studied high-risk areas of both Guangdong and Yunnan provinces. Random forests showed that the most important factors affecting dengue fever occurrence were the number of imported cases, BI and the monthly average minimum temperature in Guangdong province; whereas the imported cases, the monthly average temperature and monthly relative humidity in Yunnan province. We found the rainfall had the indirect effect on dengue fever occurrence in both areas mediated by mosquito density; while the direct effect in high-risk areas of Guangdong was dominated by temperature and no obvious effect in Yunnan province by SEM. In total, climate factors and mosquito density are the key drivers on dengue fever incidence in different high-risk areas of China. These findings could provide scientific evidence for early warning and the scientific control of dengue fever in high-risk areas.
format Online
Article
Text
id pubmed-6925307
institution National Center for Biotechnology Information
language English
publishDate 2019
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-69253072019-12-24 The driver of dengue fever incidence in two high-risk areas of China: A comparative study Liu, Keke Hou, Xiang Wang, Yiguan Sun, Jimin Xiao, Jianpeng Li, Ruiyun Lu, Liang Xu, Lei Sang, Shaowei Hu, Jianxiong Wu, Haixia Song, Xiuping Zhao, Ning Yan, Dongming Li, Jing Liu, Xiaobo Liu, Qiyong Sci Rep Article In China, the knowledge of the underlying causes of heterogeneous distribution pattern of dengue fever in different high-risk areas is limited. A comparative study will help us understand the influencing factors of dengue in different high-risk areas. In the study, we compared the effects of climate, mosquito density and imported cases on dengue fever in two high-risk areas using Generalized Additive Model (GAM), random forests and Structural Equation Model (SEM). GAM analysis identified a similar positive correlation between imported cases, density of Aedes larvae, climate variables and dengue fever occurrence in the studied high-risk areas of both Guangdong and Yunnan provinces. Random forests showed that the most important factors affecting dengue fever occurrence were the number of imported cases, BI and the monthly average minimum temperature in Guangdong province; whereas the imported cases, the monthly average temperature and monthly relative humidity in Yunnan province. We found the rainfall had the indirect effect on dengue fever occurrence in both areas mediated by mosquito density; while the direct effect in high-risk areas of Guangdong was dominated by temperature and no obvious effect in Yunnan province by SEM. In total, climate factors and mosquito density are the key drivers on dengue fever incidence in different high-risk areas of China. These findings could provide scientific evidence for early warning and the scientific control of dengue fever in high-risk areas. Nature Publishing Group UK 2019-12-20 /pmc/articles/PMC6925307/ /pubmed/31862993 http://dx.doi.org/10.1038/s41598-019-56112-8 Text en © The Author(s) 2019 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Liu, Keke
Hou, Xiang
Wang, Yiguan
Sun, Jimin
Xiao, Jianpeng
Li, Ruiyun
Lu, Liang
Xu, Lei
Sang, Shaowei
Hu, Jianxiong
Wu, Haixia
Song, Xiuping
Zhao, Ning
Yan, Dongming
Li, Jing
Liu, Xiaobo
Liu, Qiyong
The driver of dengue fever incidence in two high-risk areas of China: A comparative study
title The driver of dengue fever incidence in two high-risk areas of China: A comparative study
title_full The driver of dengue fever incidence in two high-risk areas of China: A comparative study
title_fullStr The driver of dengue fever incidence in two high-risk areas of China: A comparative study
title_full_unstemmed The driver of dengue fever incidence in two high-risk areas of China: A comparative study
title_short The driver of dengue fever incidence in two high-risk areas of China: A comparative study
title_sort driver of dengue fever incidence in two high-risk areas of china: a comparative study
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6925307/
https://www.ncbi.nlm.nih.gov/pubmed/31862993
http://dx.doi.org/10.1038/s41598-019-56112-8
work_keys_str_mv AT liukeke thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT houxiang thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT wangyiguan thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT sunjimin thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT xiaojianpeng thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT liruiyun thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT luliang thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT xulei thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT sangshaowei thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT hujianxiong thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT wuhaixia thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT songxiuping thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT zhaoning thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT yandongming thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT lijing thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT liuxiaobo thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT liuqiyong thedriverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT liukeke driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT houxiang driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT wangyiguan driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT sunjimin driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT xiaojianpeng driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT liruiyun driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT luliang driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT xulei driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT sangshaowei driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT hujianxiong driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT wuhaixia driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT songxiuping driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT zhaoning driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT yandongming driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT lijing driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT liuxiaobo driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy
AT liuqiyong driverofdenguefeverincidenceintwohighriskareasofchinaacomparativestudy

Ejemplares similares