Snake bites kill and maim many people every year. Head and face venomous snake bite is rare, easy to misdiagnose and miss diagnosis, and the fatality rate is high. In this paper, 1 case of head and face venomous snake bite poisoning was reported and 10 similar cases were reviewed. The clinical characteristics of head and face venomous snake bite poisoning were summarized to provide guidance for clinical diagnosis and treatment. Head and face venomous snake bites may lead to airway injury, edema, and airway obstruction is the main cause of early death. Timely intubation or tracheotomy to maintain oxygen supply and early use of antivenin can improve prognosis.

Snake bites kill and maim many people every year. Head and face venomous snake bite is rare, easy to misdiagnose and miss diagnosis, and the fatality rate is high. In this paper, 1 case of head and face venomous snake bite poisoning was reported and 10 similar cases were reviewed. The clinical characteristics of head and face venomous snake bite poisoning were summarized to provide guidance for clinical diagnosis and treatment. Head and face venomous snake bites may lead to airway injury, edema, and airway obstruction is the main cause of early death. Timely intubation or tracheotomy to maintain oxygen supply and early use of antivenin can improve prognosis.

Currently,human health due to corona virus disease 2019(COVID-19)pandemic has been seriously threatened.The coronavirus severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)spike(S)protein plays a crucial role in virus transmission and several S-based therapeutic approaches have been approved for the treatment of COVID-19.However,the efficacy is compromised by the SARS-CoV-2 evolvement and mutation.Here we report the SARS-CoV-2 S protein receptor-binding domain(RBD)inhibitor licorice-saponin A3(A3)could widely inhibit RBD of SARS-CoV-2 variants,including Beta,Delta,and Omicron BA.1,XBB and BQ1.1.Furthermore,A3 could potently inhibit SARS-CoV-2 Omicron virus in Vero E6 cells,with EC50 of 1.016 pM.The mechanism was related to binding with Y453 of RBD deter-mined by hydrogen-deuterium exchange mass spectrometry(HDX-MS)analysis combined with quan-tum mechanics/molecular mechanics(QM/MM)simulations.Interestingly,phosphoproteomics analysis and multi fluorescent immunohistochemistry(mIHC)respectively indicated that A3 also inhibits host inflammation by directly modulating the JNK and p38 mitogen-activated protein kinase(MAPK)path-ways and rebalancing the corresponding immune dysregulation.This work supports A3 as a promising broad-spectrum small molecule drug candidate for COVID-19.

Objective:To understand the epidemiological characteristics and post-exposure prophylaxis (PEP) situation of rabies exposure population in the animal injury outpatient department of Lishui Central Hospital, so as to provide reference for rabies prevention and control in this region.Methods:The epidemiological data of 6 471 rabies-exposed persons in Lishui Central Hospital from 2021 to 2023 were retrospectively analyzed, including the gender and age of exposed persons, the month and location of injury, the species of injured animals, the exposure grade, rabies vaccination, rabies passive immunization agents, etc.Results:From 2021 to 2023, a total of 6 471 cases of rabies exposure were treated in the animal injury outpatient department of Lishui Central Hospital. From 2021 to 2023, 1 133 cases, 2 135 cases and 3 203 cases were treated respectively. April to November was the peak period of exposure. The population of 21 to 30 years had the highest rate of treatment, reaching 27.79% (1 798/6 471), and was a high-risk group of exposure. The age composition ratio of rabies exposure in the three years was statistically significantly different ( χ2=43.82, P<0.001); the male to female ratio was 1∶1.14 ( χ2=1.63, P=0.442); 3 317 cases (51.26%, 3 317/6 471) were injured by cats, and 2 614 cases (42.16%, 2 614/6 471) were injured by dogs, cats and dogs were the main injured animals ( χ2=18.63, P=0.098). The upper limbs (4 131/6 471, 63.84%) and lower limbs (1 848/6 471, 28.56%) were the most exposed sites, and there was a statistically significant difference in the exposure composition ratio of each site in three years ( χ2=105.79, P<0.001). Grade II exposure accounted for 31.79% (2 057/6 471), grade III exposure accounted for 62.31% (4 032/6 471). Among grade III exposure individuals, those who used passive immune preparations accounted for 55.13% (2 232/4 032). Conclusions:The number of rabies-exposed patients in the animal injury outpatient department of Lishui Central Hospital has been increasing year by year, and the population of patients injured by cats and dogs is particularly prominent. The utilization rate of passive immune preparations for grade III exposure patients still needs to be further improved.

Oolong tea is a semi-fermented tea with strong flavor, which is widely favored by consumers because of its floral and fruity aroma as well as fresh and mellow taste. During the processing of oolong tea, withering is the first indispensable process for improving flavor formation. However, the molecular mechanism that affects the flavor formation of oolong tea during withering remains unclear. Transcriptome sequencing was used to analyze the difference among the fresh leaves, indoor-withered leaves and solar-withered leaves of oolong tea. A total of 10 793 differentially expressed genes were identified from the three samples. KEGG enrichment analysis showed that the differentially expressed genes were mainly involved in flavonoid synthesis, terpenoid synthesis, plant hormone signal transduction and spliceosome pathways. Subsequently, twelve differentially expressed genes and four differential splicing genes were identified from the four enrichment pathways for fluorescence quantitative PCR analysis. The results showed that the expression patterns of the selected genes during withering were consistent with the results in the transcriptome datasets. Further analysis revealed that the transcriptional inhibition of flavonoid biosynthesis-related genes, the transcriptional enhancement of terpenoid biosynthesis-related genes, as well as the jasmonic acid signal transduction and the alternative splicing mechanism jointly contributed to the flavor formation of high floral and fruity aroma and low bitterness in solar-withered leaves. The results may facilitate better understanding the molecular mechanisms of solar-withering treatment in flavor formation of oolong tea.
Camellia sinensis/genetics* ; Gene Expression Profiling ; Plant Leaves ; Plant Proteins/metabolism* ; Taste ; Tea ; Transcriptome/genetics*