Spatiotemporal heterogeneity of schistosomiasis in mainland China: Evidence from a multi-stage continuous downscaling sentinel monitoring

Yanfeng Gong; Jiaxin Feng; Zhuowei Luo; Jingbo Xue; Zhaoyu Guo; Lijuan Zhang; Shang Xia; Shan LV; Jing XU; Shizhu LI; Yanfeng Gong; Jiaxin Feng; Zhuowei Luo; Jingbo Xue; Zhaoyu Guo; Lijuan Zhang; Shang Xia; Shan LV; Jing XU; Shizhu LI; Yanfeng Gong; Jiaxin Feng; Zhuowei Luo; Jingbo Xue; Zhaoyu Guo; Lijuan Zhang; Shang Xia; Shan LV; Jing XU; Shizhu LI; Yanfeng Gong; Jiaxin Feng; Zhuowei Luo; Jingbo Xue; Zhaoyu Guo; Lijuan Zhang; Shang Xia; Shan LV; Jing XU; Shizhu LI; Yanfeng Gong; Jiaxin Feng; Zhuowei Luo; Jingbo Xue; Zhaoyu Guo; Lijuan Zhang; Shang Xia; Shan LV; Jing XU; Shizhu LI; Shang Xia; Shan LV; Shizhu LI

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Spatiotemporal heterogeneity of schistosomiasis in mainland China: Evidence from a multi-stage continuous downscaling sentinel monitoring

Author: Yanfeng GONG ¹ ; Jiaxin FENG ¹ ; Zhuowei LUO ¹ ; Jingbo XUE ¹ ; Zhaoyu GUO ¹ ; Lijuan ZHANG ¹ ; Shang XIA ¹ ; Shan LV ¹ ; Jing XU ¹ ; Shizhu LI ¹ ; Yanfeng GONG ² ; Jiaxin FENG ² ; Zhuowei LUO ² ; Jingbo XUE ² ; Zhaoyu GUO ² ; Lijuan ZHANG ² ; Shang XIA ² ; Shan LV ² ; Jing XU ² ; Shizhu LI ² ; Yanfeng GONG ³ ; Jiaxin FENG ³ ; Zhuowei LUO ³ ; Jingbo XUE ³ ; Zhaoyu GUO ³ ; Lijuan ZHANG ³ ; Shang XIA ³ ; Shan LV ³ ; Jing XU ³ ; Shizhu LI ³ ; Yanfeng GONG ⁴ ; Jiaxin FENG ⁴ ; Zhuowei LUO ⁴ ; Jingbo XUE ⁴ ; Zhaoyu GUO ⁴ ; Lijuan ZHANG ⁴ ; Shang XIA ⁴ ; Shan LV ⁴ ; Jing XU ⁴ ; Shizhu LI ⁴ ; Yanfeng GONG ⁵ ; Jiaxin FENG ⁵ ; Zhuowei LUO ⁵ ; Jingbo XUE ⁵ ; Zhaoyu GUO ⁵ ; Lijuan ZHANG ⁵ ; Shang XIA ⁵ ; Shan LV ⁵ ; Jing XU ⁵ ; Shizhu LI ⁵ ; Shang XIA ⁶ ; Shan LV ⁶ ; Shizhu LI ⁶
Author Information

1. National Institute of Parasitic Diseases, Chinese Center for Disease Control and Prevention
2. Chinese Center for Tropical Diseases Research
3. NHC Key Laboratory of Parasite and Vector Biology
4. WHO Collaborating Centre for Tropical Diseases
5. National Center for International Research on Tropical Diseases
6. School of Global Health, Chinese Center for Tropical Diseases Research, Shanghai Jiao Tong University School of Medicine
Publication Type:Journal Article
Keywords: China; Schistosomiasis; Sentinel surveillance; Spatiotemporal heterogeneity
From: Asian Pacific Journal of Tropical Medicine 2022;15(1):26-34
CountryChina
Language:Chinese
Abstract: Objective: To determine the spatiotemporal distribution of Schistosoma (S.) japonicum infections in humans, livestock, and Oncomelania (O.) hupensis across the endemic foci of China. Methods: Based on multi-stage continuous downscaling of sentinel monitoring, county-based schistosomiasis surveillance data were captured from the national schistosomiasis surveillance sites of China from 2005 to 2019. The data included S. japonicum infections in humans, livestock, and O. hupensis. The spatiotemporal trends for schistosomiasis were detected using a Joinpoint regression model, with a standard deviational ellipse (SDE) tool, which determined the central tendency and dispersion in the spatial distribution of schistosomiasis. Further, more spatiotemporal clusters of S. japonicum infections in humans, livestock, and O. hupensis were evaluated by the Poisson model. Results: The prevalence of S. japonicum human infections decreased from 2.06% to zero based on data of the national schistosomiasis surveillance sites of China from 2005 to 2019, with a reduction from 9.42% to zero for the prevalence of S. japonicum infections in livestock, and from 0.26% to zero for the prevalence of S. japonicum infections in O. hupensis. Analysis using an SDE tool showed that schistosomiasis-affected regions were reduced yearly from 2005 to 2014 in the endemic provinces of Hunan, Hubei, Jiangxi, and Anhui, as well as in the Poyang and Dongting Lake regions. Poisson model revealed 11 clusters of S. japonicum human infections, six clusters of S. japonicum infections in livestock, and nine clusters of S. japonicum infections in O. hupensis. The clusters of human infection were highly consistent with clusters of S. japonicum infections in livestock and O. hupensis. They were in the 5 provinces of Hunan, Hubei, Jiangxi, Anhui, and Jiangsu, as well as along the middle and lower reaches of the Yangtze River. Humans, livestock, and O. hupensis infections with S. japonicum were mainly concentrated in the north of the Hunan Province, south of the Hubei Province, north of the Jiangxi Province, and southwestern portion of Anhui Province. In the 2 mountainous provinces of Sichuan and Yunnan, human, livestock, and O. hupensis infections with S. japonicum were mainly concentrated in the northwestern portion of the Yunnan Province, the Daliangshan area in the south of Sichuan Province, and the hilly regions in the middle of Sichuan Province. Conclusions: A remarkable decline in the disease prevalence of S. japonicum infection was observed in endemic schistosomiasis in China between 2005 and 2019. However, there remains a long-term risk of transmission in local areas, with the highest-risk areas primarily in Poyang Lake and Dongting Lake regions, requiring to focus on vigilance against the rebound of the epidemic. Development of high-sensitivity detection methods and integrating the transmission links such as human and livestock infection, wild animal infection, and O. hupensis into the surveillance-response system will ensure the elimination of schistosomiasis in China by 2030.