This study investigated the recovery and absorption rates of murine norovirus, a surrogate for human norovirus, by using NanoCeram(R) filters which served as a tool for recovering viruses. In the study, two types of NanoCeram(R) filters were employed: one was a cartridge type and the other was a disc type (phi 47 mm) whose surface area is 75 times smaller than the cartridge type. The analytical method was the real-time reverse transcription-polymerase chain reaction (RT-PCR). The study found that the average recovery rates of the cartridge type and the disc type were 30.9% and 29.5% respectively. Since these two rates were very close to each other, the adsorption rate of the cartridge type could be predicted with the disc type. Analyzing recovery and absorption rates of the disc type based on different filtered volumes showed that when the volume increased from 0.5 L to 20 L, the average recovery rate rose from 14.78% to 30.41 %, while the average absorption rate dropped from 56.33% to 10.48%. The increase in turbidity from less than 1 NTU to less than 3 NTU raised the average recovery rate from 47.23% to 82.84%.
Absorption ; Adsorption ; Humans ; Norovirus

No abstract available.
Liver ; Norovirus ; Transaminases

No abstract available.
Gangwon-do* ; Humans ; Norovirus* ; Sequence Analysis*

Noroviruses (NoVs) are one major etiologic agent in acute gastroenteritis (AGE) in all ages and are the primary cause of food-borne gastroenteritis worldwide. GII-4 NoVs has predominated since 1990s, and novel recombinant strains have been reported worldwide. Researchers face difficulties in making vaccines and therapeutic agents against NoVs due to the lack of cell culture and animal-model systems and the rapid emergence of novel variant strains. Recently, a randomized clinical trial for intranasal NoVs vaccine has been reported, which casts a light in the way of vaccine production. This review discusses the recent findings on the structure, immunity, and vaccination of NoVs.
Cell Culture Techniques ; Child ; Gastroenteritis ; Humans ; Light ; Norovirus ; Vaccination ; Vaccines

PURPOSE: Our aim was to describe the clinical features of noroviral gastroenteritis in children. METHODS: This study included 22 children with noroviral gastroenteritis, as confirmed by stool RT-PCR, who were admitted to Bundang CHA Hospital between July 2006 and June 2008. Their medical records were reviewed and compared with those of 45 children with rotaviral gastroenteritis. RESULTS: In the norovirus group, 19 (86.4%) children showed vomiting and 21 (95.5%) children showed diarrhea, while all children in the rotaviral group showed both vomiting and diarrhea. The duration of vomiting was not different in the two groups, but mean episodes of vomiting/24 h were higher in the norovirus group than in the rotavirus group. The duration of diarrhea was longer and mean episodes of diarrhea/24 h were higher in the rotavirus group. The Vesikari Scale was not different in the two groups. Frequency and duration of fever did not show a significant difference. Most children in both groups were below 2 years of age. CONCLUSION: Clinical features of noroviral gastroenteritis were largely similar to those of rotaviral gastroenteritis, but vomiting was more severe in noroviral infection, and diarrhea was more severe and prolonged in rotaviral infection. With regard to noroviral infection, further epidemiologic investigations and preventive efforts are essential.
Child ; Diarrhea ; Fever ; Gastroenteritis ; Humans ; Medical Records ; Norovirus ; Rotavirus ; Vomiting

Human norovirus are major causative agent of nonbacterial acute gastroenteritis. In general, genogroup (G) II.4 is the most prominent major genotype that circulate in human population and the environment. However, a shift in genotypic trends was observed in Korea in December 2014. In this study, we investigated the trend of norovirus genotype in detail using the database of Acute Diarrhea Laboratory Surveillance (K-EnterNet) in Korea. GII.17 has since become a major contributor to outbreaks of norovirus-related infections and sporadic cases in Korea, although the reason for this shift remain unknown.
Diarrhea ; Disease Outbreaks ; Gastroenteritis ; Genotype ; Humans ; Korea* ; Norovirus*

Norovirus ; chemistry ; genetics ; physiology ; ultrastructure ; Open Reading Frames ; Virus Replication

China ; epidemiology ; Diarrhea ; epidemiology ; virology ; Disease Outbreaks ; Humans ; Norovirus

Objective: To analyze the epidemiological characteristics of norovirus-caused acute gastroenteritis outbreaks in China, identify the factors influencing the scale of outbreaks, and provide scientific evidences for early control of norovirus infection outbreaks. Methods: The descriptive epidemiological analysis approach was applied to analyze the incidence of national norovirus infection outbreaks by using the data from the Public Health Emergency Event Surveillance System in China from January 1, 2007 to December 31, 2021. The unconditional logistic regression model was applied to analyze the risk factors that affected the outbreaks' scale. Results: A total of 1 725 norovirus infection outbreaks were recorded in China from 2007 to 2021, with an upward trend in the number of the reported outbreaks. The southern provinces had their annual outbreak peaks from October to March; the northern provinces had two outbreak peaks from October to December and from March to June annually. The outbreaks occurred mainly in southeastern coastal provinces with a trend of gradual spread to central, northeastern and western provinces. The outbreaks mainly occurred in schools and childcare setting (1 539 cases, 89.22%), followed by enterprises and institutions (67 cases, 3.88%) and community households (55 cases, 3.19%). Human to human transmission was the main infection route (73.16%), and norovirus GⅡ genotype was the predominate pathogen causing the outbreaks (899 cases, 81.58%). The time interval between the onset of the primary case and the outbreak reporting M (Q₁, Q₃) was 3 (2, 6) days and the case number of the outbreak M (Q₁, Q₃) was 38 (28, 62). The timeliness of outbreak reporting was improved in recent years and the scale of the outbreaks showed a decreasing trend over the years, the differences in reporting timeliness and outbreak scale among different settings were significant (P<0.001). The factors that affected outbreaks' scale included the outbreak setting, transmission route, outbreak reporting timeliness and type of living areas (P<0.05). Conclusions: From 2007 to 2021, the number of the norovirus-caused acute gastroenteritis outbreaks increased in China and the more areas were affected. However, the outbreak scale showed a decreasing trend and the outbreak reporting timeliness was improved. It is important to further improve the surveillance sensitivity and reporting timeliness for the effective control of the outbreak scale.
Humans ; Child ; Norovirus ; Disease Outbreaks ; China ; Child Care ; Gastroenteritis

Murine norovirus (MNV) is a non-enveloped virus with a positive-sense RNA genome and causes lethal infection in mice. MNV has been used as a model virus for human norovirus (NV) whose in vitro cell culture system has not been available to date since MNV and NV are genetically related. In this study, the genome replication of MNV was investigated using strand-specific RT-PCR in RAW264.7 cells. Reverse transcription (RT) using a sense primer followed by PCR showed that negative-sense RNAs were first detected in RAW264.7 cells between 6 and 9 [3 and 6] hours post infection (h.p.i.). However, these negative-sense RNAs were not detected when cells were treated with a translation inhibitor cycloheximide. Then, RT with an antisense primer followed by PCR was performed to detect positive-sense RNAs. RT-PCR results revealed that the amount of positive-sense RNAs began to increase from 9 [6] h.p.i., indicating the accumulation of the newly synthesized (+)RNA genome. Furthermore, cycloheximide abrogated the increase of newly made RNAs during MNV infection. In conclusion, strand-specific RT-PCR using a sense or antisense primer, in combination with cycloheximide treatment, enabled us to detect positive-sense and negative-sense RNAs selectively and provided a useful tool to understand the replication cycle of MNV.
Animals ; Cell Culture Techniques ; Cycloheximide ; Genome ; Humans ; Mice ; Norovirus ; Polymerase Chain Reaction ; Reverse Transcription ; RNA ; Viruses