Evaluating transmission heterogeneity and super-spreading event of COVID-19 in a metropolis of China (preprint)

Background: COVID-19 caused rapid mass infection worldwide. Understanding its transmission characteristics including heterogeneity is of vital importance for prediction and intervention of future epidemics. In addition, transmission heterogeneity usually envokes super spreading events (SSEs) where certain individuals infect large numbers of secondary cases. Till now, studies of transmission heterogeneity of COVID-19 and its underlying reason are far from reaching an agreement. MethodsWe collected information of all infected cases between January 21 and February 26, 2020 from official public sources in Tianjin, a metropolis of China. Utilizing a heterogeneous transmission model based on branching process along with a negative binomial offspring distribution, we estimated the reproductive number R and the dispersion parameter k which characterized the transmission potential and heterogeneity, respectively. Furthermore, we studied the SSE in Tianjin outbreak and evaluated the effect of control measures undertaken by local government based on the heterogeneous model. Results: A total of 135 confirmed cases (including 34 imported cases and 101 local infections) in Tianjin by February 26th 2020 entered the study. We grouped them into 43 transmission chains with the largest chain of 45 cases and the longest chain of 4 generations. The estimated reproduction number R was at 0.67 (95%CI: 0.54[~]0.84), and the dispersion parameter k was at 0.25 (95% CI: 0.13[~]0.88). A super spreader causing six infections in Tianjin, was identified. In addition, our simulation results showed that the outbreak in Tianjin would have caused 165 infections and sustained for 7.56 generations on average if no control measures had been taken by local government since January 28th. Conclusions: Our analysis suggested that the transmission of COVID-19 was subcritical but with significant heterogeneity and may incur SSE. More efforts are needed to verify the transmission heterogeneity of COVID-19 in other populations and its contributing factors, which is important for developing targeted measures to curb the pandemic.

2019 novel coronavirus (2019-nCoV) and 2019-nCoV pneumonia / 中华微生物学和免疫学杂志

In the middle of December in 2019, a pneumonia outbreak caused by a new coronavirus, 2019 novel coronavirus (2019-nCoV), emerged in the populations in Wuhan city of China. The epidemic spreads rapidly and has been disseminated throughout the country and to 13 other counties in Asia, Europe, Oceania and North America. To accurately and deeply understand the biological characteristics, epidemiological features and pathogenicity of 2019-nCoV and related immunological characteristics, microbiological examinations and public protection measure, this study reviewed 2019-nCoV and 2019-nCoV pneumonia based on the newest relevant literatures and the newest version of National Diagnosis and Treatment Scheme of 2019-nCoV pneumonia.