Your search keyword '"Zheng Xueying"' showing total 4 results

1. Effects of air pollutants on occurrences of influenza-like illness and laboratory-confirmed influenza in Hefei, China

Author

Liu, Xu-Xiang, Li, Yapeng, Qin, Guoyou, Zhu, Yibing, Li, Xiaoru, Zhang, Junqing, Zhao, Kefu, Hu, Mingxia, Wang, Xi-Ling, and Zheng, Xueying

Published

2019

2. Impact of weather factors on influenza hospitalization across different age groups in subtropical Hong Kong

Author

Li, Yapeng, Wang, Xi-Ling, and Zheng, Xueying

Published

2018

3. Possible interference between seasonal epidemics of influenza and other respiratory viruses in Hong Kong, 2014-2017.

Author

Xueying Zheng, Zhengyu Song, Yapeng Li, Juanjuan Zhang, Xi-Ling Wang, Zheng, Xueying, Song, Zhengyu, Li, Yapeng, Zhang, Juanjuan, and Wang, Xi-Ling

Subjects

INFLUENZA viruses, PARAINFLUENZA viruses, ADENOVIRUSES, RHINOVIRUSES, RESPIRATORY syncytial virus

Abstract

Background: Unlike influenza viruses, little is known about the prevalence and seasonality of other respiratory viruses because laboratory surveillance for non-influenza respiratory viruses is not well developed or supported in China and other resource-limited countries. We studied the interference between seasonal epidemics of influenza viruses and five other common viruses that cause respiratory illnesses in Hong Kong from 2014 to 2017.Methods: The weekly laboratory-confirmed positive rates of each virus were analyzed from 2014 to 2017 in Hong Kong to describe the epidemiological trends and interference between influenza viruses, respiratory syncytial virus (RSV), parainfluenza virus (PIV), adenovirus, enterovirus and rhinovirus. A sinusoidal model was established to estimate the peak timing of each virus by phase angle parameters.Results: Seasonal features of the influenza viruses, PIV, enterovirus and adenovirus were obvious, whereas annual peaks of RSV and rhinovirus were not observed. The incidence of the influenza viruses usually peaked in February and July, and the summer peaks in July were generally caused by the H3 subtype of influenza A alone. When influenza viruses were active, other viruses tended to have a low level of activity. The peaks of the influenza viruses were not synchronized. An epidemic of rhinovirus tended to shift the subsequent epidemics of the other viruses.Conclusion: The evidence from recent surveillance data in Hong Kong suggests that viral interference during the epidemics of influenza viruses and other common respiratory viruses might affect the timing and duration of subsequent epidemics of a certain or several viruses. [ABSTRACT FROM AUTHOR]

Published

2017

4. Coherence of Influenza Surveillance Data across Different Sources and Age Groups, Beijing, China, 2008-2015.

Author

Wu, Zhenyu, Sun, Xiaoyu, Chu, Yanhui, Sun, Jingyi, Qin, Guoyou, Yang, Lin, Qin, Jingning, Xiao, Zheng, Ren, Jian, Qin, Di, Wang, Xiling, and Zheng, Xueying

Subjects

INFLUENZA diagnosis, AGE factors in disease, OUTPATIENT medical care, EPIDEMICS

Abstract

Influenza is active during the winter and spring in the city of Beijing, which has a typical temperate climate with four clear distinct seasons. The clinical and laboratory surveillance data for influenza have been used to construct critical indicators for influenza activities in the community, and previous studies have reported varying degrees of association between laboratory-confirmed influenza specimens and outpatient consultation rates of influenza-like illness in subtropical cities. However, few studies have reported on this issue for cities in temperate regions, especially in developing countries. Furthermore, the mechanism behind age-specific seasonal epidemics remains unresolved, although it has been widely discussed. We utilized a wavelet analysis method to monitor the coherence of weekly percentage of laboratory-confirmed influenza specimens with the weekly outpatient consultation rates of influenza-like illness in Beijing, China. We first examined the seasonal pattern of laboratory-confirmed cases of influenza A (subtyped into seasonal A(H1N1) and A(H3N2) and pandemic virus A(H1N1) pdm09) and influenza B separately within the period from 2008–2015; then, we detected the coherence of clinical and laboratory surveillance data in this district, specially examining weekly time series of age-specific epidemics of influenza-like illnesses in the whole study period for three age categories (age 0–5, 5–15 and 25–60). We found that influenza A and B were both active in winter but were not always seasonally synchronous in Beijing. Synchronization between age ranges was found in most epidemic peaks from 2008–2015. Our findings suggested that peaks of influenza-like illness in individuals aged 0–5 and 5–15 years consistently appeared ahead of those of adults, implying the possibility that schoolchildren may lead epidemic fluctuations. [ABSTRACT FROM AUTHOR]

Published

2016