Imported human norovirus in travelers, Shanghai port, China 2018: An epidemiological and whole genome sequencing study.

Background: Global mobility of the population has accelerated spread of the Human Norovirus (HuNoV), with long-distance travel in enclosed spaces increasing the opportunity for viral outbreaks. However, surveillance of HuNoV transmission is still lacking, especially in cross-border transportation.

Method: From 533 self-reported patients, 83 swab samples (15.6%) tested positive for HuNoV by RT-qPCR. Positive samples were sequenced using next-generation sequencing (NGS). Epidemiological investigation and whole genome analysis were then conducted.

Results: Most cases occurred in February and March, with large outbreaks involving more than 34 people. A total of 74 HuNoV sequences that could be genotyped were obtained, with near-complete genomes (>7 kb) accounting for most sequences (57/74). A total of 19 different genotypes of viral whole genome sequences were included. The first whole genome sequence of GII.9[P7] was obtained. Rarely reported genotypes including GI.3[P10], GI.3[P13], GII.7[P7], GII.8[P8], and GIX.1[GII.P15] were sequenced and assembled successfully. Four possible sources of virus outbreaks in China were traced. Beyond HuNoV, whole genome sequences of food-borne viruses including Salivirus, Kobuvirus, and Enterovirus were obtained in further assembly.

Conclusions: Surveillance of the etiology and epidemiology of HuNoV global spread through travelers will improve pre-travel health advice, empirical treatment, and estimates of vaccine-preventable diseases.