Volume 25, Number 8—August 2019
Research Letter
Chikungunya Fever Outbreak, Zhejiang Province, China, 2017
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Junhang Pan1, Chunfu Fang1, Juying Yan, Hao Yan, Bingdong Zhan, Yi Sun, Ying Liu, Haiyan Mao, Guoping Cao, Lei Lv, and Enfu Chen
Abstract
We report a disease outbreak caused by chikungunya virus in Zhejiang Province, China, in August 2017. Phylogenic analysis indicated that this virus belonged to the Indian Ocean clade of the East/Central/South African genotype and was imported by a traveler returning from Bangladesh.
Chikungunya fever is an arboviral disease transmitted between humans and through the bites of infected Aedes mosquitoes, specifically the species Ae. aegypti and Ae. albopictus (1). High fever, myalgia, polyarthralgia, and maculopapular rash are typical clinical symptoms of chikungunya fever. However, some chikungunya virus (CHIKV) infections have led to severe clinical symptoms, such as neurologic signs or fulminant hepatitis, which have had a serious effect on human health (2).
CHIKV was isolated in 1952 during a dengue outbreak in Tanzania; a CHIKV outbreak in Asia was reported in Thailand in 1960. Since 2004, CHIKV has caused unexpected large outbreaks in Africa, Asia, and the Americas, becoming a major public health concern throughout the world (3). A nonindigenous case of CHIKV infection in mainland China was reported in 1986; no outbreaks resulting from local transmission were reported until the chikungunya outbreaks in Dongguan and Yangjiang regions in Guangdong Province, in southern China, in 2010 (4). Three imported cases of CHIKV infection were confirmed in travelers returning from Southeast Asia in Zhejiang Province, eastern China: 2 cases in 2008 and 1 in 2012.
Zhejiang Province is located in eastern China (27°01′–31°10′N, 118°01′–123°08′Ε) and has a humid subtropical monsoon climate. Its average annual temperature is 15°C–18°C, and it has abundant rainfall, an average of 1,100–2,200 mm annually. The mosquito vector Ae. aegypti has not been found in Zhejiang Province, whereas the range of Ae. albopictus mosquitoes was distributed around this region (5).
Zhejiang Province does not belong to the endemic area of chikungunya; however, we report an outbreak of chikungunya caused by a traveler returning from Bangladesh in August 2017 in Quzhou, Zhejiang Province. The patient with the imported case was living in Huangdun village; another 3 CHIKV infections were confirmed in the same village (Appendix Figure). After the confirmation of these infections, the Quzhou government quickly organized mosquito control measures: granules of fenthion were used to control the mosquito larvae, and the wettable powders of cyfluthrin and cyhalothrin were used to control the adult mosquito. The Breteau index (number of positive containers per 100 houses inspected) in Huangdun village decreased from 114 on August 23 to <20 in 2 days. No similar case was reported during the continuous monitoring in hospitals in Quzhou, and serum samples collected from the inhabitants of this village were negative for CHIKV RNA, IgM, and IgG.
Figure. Phylogenetic analysis of the complete CHIKV genome sequences of isolate ZJQZ3 from Quzhou, Zhejiang Province, China (arrow), and reference sequences. Dataset-specific models that were selected using the Akaike Information Criterion in...
We inoculated serum samples of these 4 cases on C6/36 cell lines to isolate CHIKV, and we observed complete cytopathic effects on all incubations. CHIKV RNA was confirmed in these samples; we named these strains ZJQZ3, ZJQZ4, ZJQZ5, and ZJQZ6. Sequence analysis of the CHIKV envelope (E) 1 gene showed that 4 sequences were 100% identical with one another, which indicated that the infected traveler who returned from a disease-endemic area led to this local transmission and outbreak. We sequenced the complete genome sequence of CHIKV ZJQZ3 (11,765 bp; GenBank accession no. MG912993) using Ion Torrent PGM () and performed phylogenetic analysis with 45 worldwide CHIKV strain sequences from GenBank. Results showed that the genome sequence of CHIKV ZJQZ3 was highly similar to the strain (GenBank accession no. MF773566) isolated from a patient in Australia who returned from Bangladesh in 2017 and belongs to the Indian Ocean clade of the East/Central/South African genotype (Figure). However, a large outbreak of chikungunya fever was observed in Dhaka, Bangladesh, during May–August 2017 (6). With an increase in global travel, the risk for spreading CHIKV to the regions in which the virus is not endemic has increased.
We observed mutations in E1-M269V, E1-D284E, and nonstructural (ns) gene P3-D372E in CHIKV ZJQZ3 but found no Ae. albopictus–adaptive mutations in E1-A226V, E2-L210Q, E2-K252Q, E2-K233E, and E2/E3-R198Q/S18F (7–9). However, the mutations in E1-A226V, E2-K252Q, E2-L210Q, and E2-V264A were reported previously in some imported cases in China (10). The growing genetic diversities observed in each strain suggested that CHIKV will be a major public health threat with the potential for further emergence and spread.
This outbreak indicates that CHIKV can be transmitted by Ae. albopictus mosquitoes in Zhejiang Province and may have the potential for further emergence and spread in northern China. Clinicians should be educated about the diagnosis of this disease, and public health organizations should work to overcome the diagnostic challenges of multiple arboviruses, carefully monitor imported cases, strengthen vector control, and conduct surveillance for CHIKV-infected vectors in high-risk areas to prevent local establishment of this new emerging virus.
Dr. Pan is a research scientist at Zhejiang Provincial Center for Disease Control and Prevention, Hangzhou, China, whose research interests are detection and epidemiology of emerging infectious diseases. Dr. Fang is an epidemiologist at Quzhou Center for Disease Control and Prevention, Quzhou, Zhejiang Province, China, whose primary research interests are epidemiology and transmission of viruses associated with emerging infectious diseases.
Acknowledgments
We thank the Qujiang District Center for Disease Control and Prevention for confirming the diagnosis of chikungunya virus infections in this study.
This study was supported by the Key Disciplinary of Health and Family Planning Commission of Zhejiang Province (grant no. CX-9), the Monitor Technology Platform of Infectious Diseases of the State Major Science and Technology Special Projects during the 13th 5-year plan of China (grant no. 2017ZX10103008-002), and the Zhejiang Provincial Program for the Cultivation of High-Level Innovative Health Talents.
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Cite This ArticleOriginal Publication Date: 6/25/2019
1These authors contributed equally to this article.
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