Outbreaks of zoonotic emerging infectious diseases have posed serious threats to human health and social development. The experience of epidemic prevention and control highlights the importance of the One Health concept in the prevention and control of emerging infectious diseases. Sanitary microbiology studies the ecological relationship between environmental microorganisms and humans, detection techniques, and preventive strategies. Its research scope overlaps and is closely related to that of emerging infectious disease prevention and control guided by the One Health concept. Vigorously promoting the research and teaching reform of sanitary microbiology in universities can provide key technologies and high-tech talents for One Health practices, promote development of new strategies for the prevention and control of emerging infectious diseases, and enhance the ability to respond to biosafety crises.

Outbreaks of zoonotic emerging infectious diseases have posed serious threats to human health and social development. The experience of epidemic prevention and control highlights the importance of the One Health concept in the prevention and control of emerging infectious diseases. Sanitary microbiology studies the ecological relationship between environmental microorganisms and humans, detection techniques, and preventive strategies. Its research scope overlaps and is closely related to that of emerging infectious disease prevention and control guided by the One Health concept. Vigorously promoting the research and teaching reform of sanitary microbiology in universities can provide key technologies and high-tech talents for One Health practices, promote development of new strategies for the prevention and control of emerging infectious diseases, and enhance the ability to respond to biosafety crises.

Infectious disease is a major public health problem threatening human health and social development, and infectious disease teaching is an important part of public health education. However, traditional infectious disease teaching faces challenges such as overly theoretical and fragmented content, overly traditional and monotonous methods, and a narrow and isolated vision, which makes it difficult to adapt to the current complex and changing situation of infectious disease prevention and control. The “One Health” concept emphasizes interdisciplinary, cross-sectoral, and cross-regional communication and cooperation to achieve the harmonious unity of health for humans, animals, and the environment, which is significant in preventing and controlling infectious diseases. This paper proposes some ideas for reforming infectious disease teaching based on the One Health concept, which aims to improve the quality and effectiveness of infectious disease teaching by recognizing the close connection between human health, animal health, and environmental health. Specifically, it is suggested to reform the teaching in four aspects: introducing the basic concepts, principles, and practices of One Health, increasing the content of infectious diseases related to One Health, adopting diversified and interactive teaching methods, and establishing cross-disciplinary teaching cooperation. Concrete recommendations are provided for each aspect. This paper argues that reforming infectious disease teaching based on the One Health concept is conducive to cultivating public health talents with global vision, systems thinking, and cross-disciplinary collaboration capabilities, providing robust talent support for coping with emerging, re-emerging, and endemic infectious disease threats.

Background The ongoing new coronavirus pneumonia (Corona Virus Disease 2019,COVID-19) outbreak is spreading in China, but it has not yet reached its peak. Five million people emigrated from Wuhan before lockdown, potentially representing a source of virus infection. Determining case distribution and its correlation with population emigration from Wuhan in the early stage of the epidemic is of great importance for early warning and for the prevention of future outbreaks. Methods The official case report on the COVID-19 epidemic was collected as of January 30, 2020. Time and location information on COVID-19 cases was extracted and analyzed using ArcGIS and WinBUGS software. Data on population migration from Wuhan City and Hubei province were extracted from Baidu Qianxi, and their correlation with the number of cases was analyzed. Results The COVID-19 confirmed and death cases in Hubei province accounted for 59.91% (5806/9692) and 95.77% (204/213) of the total cases in China respectively. Hot spot provinces included Sichuan and Yunnan, which are adjacent to Hubei. The time risk of Hubei province on the following day was 1.960 times that on the previous day. The number of cases in some cities was relatively low, but the time risk appeared to be continuously rising. The correlation coefficient between the provincial number of cases and emigration from Wuhan was up to 0.943. The lockdown of 17 cities in Hubei province and the implementation of nationwide control measures efficiently prevented an exponential growth in the number of cases. Conclusion The population that emigrated from Wuhan was the main infection source in other cities and provinces. Some cities with a low number of cases showed a rapid increase in case load. Owing to the upcoming Spring Festival return wave, understanding the risk trends in different regions is crucial to ensure preparedness at both the individual and organization levels and to prevent new outbreaks.

Objective:To monitor the air quality of the air pressurized oxygen chamber in a hospital in real time, and conduct hygienic evaluation.Methods:Based on the data collected from the WeChat interface from July 20, 2020 to July 27, 2020 and the background data of the air dynamic monitoring system based on the Internet of Things from July 6, 2020 to July 10, 2020, we tested, recorded, and carried out a descriptive analysis of some air quality indexes and noise of the air pressurized oxygen chamber (temperature, humidity, formaldehyde, TVOC, CO 2, PM10, PM2.5). We evaluated the air quality in the pressurized oxygen chamber according to the Indoor Air Quality Standard GB/T 18883—2002, and provided some suggestions on optimization. Results:The detection results showed that all the indicators fluctuated greatly. The indicators of CO 2 and particulate matters had exceeded the standards multiple times. After the disinfection, the TVOC and formaldehyde concentrations had increased rapidly or even exceeded the standards. Conclusion:There was a problem with the air quality in the air pressurized oxygen chamber. It will enhance the therapeutic effect of hyperbaric oxygen by strengthening the management of personnel and equipment, improving the environment in the medical air pressurized oxygen chamber, and further monitoring of the air pressure, oxygen concentration, and the total amount of bacteria in the chamber.

Objective:To monitor the air quality of the air pressurized oxygen chamber in a hospital in real time, and conduct hygienic evaluation.Methods:Based on the data collected from the WeChat interface from July 20, 2020 to July 27, 2020 and the background data of the air dynamic monitoring system based on the Internet of Things from July 6, 2020 to July 10, 2020, we tested, recorded, and carried out a descriptive analysis of some air quality indexes and noise of the air pressurized oxygen chamber (temperature, humidity, formaldehyde, TVOC, CO 2, PM10, PM2.5). We evaluated the air quality in the pressurized oxygen chamber according to the Indoor Air Quality Standard GB/T 18883—2002, and provided some suggestions on optimization. Results:The detection results showed that all the indicators fluctuated greatly. The indicators of CO 2 and particulate matters had exceeded the standards multiple times. After the disinfection, the TVOC and formaldehyde concentrations had increased rapidly or even exceeded the standards. Conclusion:There was a problem with the air quality in the air pressurized oxygen chamber. It will enhance the therapeutic effect of hyperbaric oxygen by strengthening the management of personnel and equipment, improving the environment in the medical air pressurized oxygen chamber, and further monitoring of the air pressure, oxygen concentration, and the total amount of bacteria in the chamber.

Antibiotic resistance affects the development of the world economy and threats public health. China is one of the countries with the most severe abuse of antibiotics. Here, we describe the causes of antibiotic resistance in the environment, human and animals as well as the status of antibiotic resistance. Based on the concept of One Health, we propose the promotion of the scientific use of antibiotics, the development of new types of antibiotics, establishment of the antibiotics stereoscopic monitoring network system, the promotion of knowledge education of antibiotic resistance, prevention of infection and other measures. We call for the establishment of interdisciplinary, cross-sectoral, trans-regional communication and cooperation to promote the development of antibiotic resistance prevention and control in China to protect environment and the health of humans and animals.

OBJECTIVESTo investigate a survey about acceptance of central slaughtering of live poultry in residents of Guangzhou.

METHODSWe conducted a telephone survey by sampling residents with fixed-line telephone and with normal hearing, whose age is more than 15 years, by Mitofsky-Waksberg two-stage method during Jan 6(th) to 8(th), 2014. 358 residents finished the telephone questionnaire by 12 320 health hot line. We investigated the acceptance rate of city-wide central slaughtering permanently. We compared the difference between the respondents and the 2010 Guangzhou census data by Cohen's effect sizes (w) and weighted by population age and sex. We used χ(2) test to compare the acceptance rate of central slaughtering in residents with different characteristic. We used multiple logistic regression analysis to analyze the factors.

RESULTSThe difference in gender and age was small between respondents and the 2010 Guangzhou census data (w value was 0.13, 0.28, respectively), but that in education and marital status was large (w value was 0.52, 0.31, respectively). 49.0% (95% CI: 43.7%-54.3%) accept city-wide central slaughtering permanently. The acceptance rate of city-wide central slaughtering permanently in those who bought fresh, chilled and frozen poultry in their family in previous year was 54.3% (133/245), 60.0% (57/95) and 59.8% (49/82), respectively. It was more than those who didn't buy fresh, chilled and frozen poultry (38.1% (43/113), 44.9% (118/263) and 45.7% (126/276); χ(2) values were 8.15, 6.40 and 5.03; P values were 0.004, 0.011 and 0.025, respectively). The acceptance rate of city-wide central slaughtering permanently in those who deem fresh poultry taste better than live poultry was 64.9% (24/38). It more than those who deem not (47.0%, 151/320) (χ(2) = 4.22, 6.02, P = 0.040, 0.014, respectively). The acceptance rate of city-wide central slaughtering permanently in the male (OR = 2.68, 95% CI: 1.64-4.37) and those who deem getting sick due to buying live birds from LPM (OR = 1.72, 95% CI: 1.05-2.82), who can accept only fresh poultry carcass supply (OR = 2.39, 95% CI: 1.33-4.30), Who bought live poultry in their family in previous year (OR = 0.29, 95% CI: 0.11-0.74), who will decrease the consumption after ban on live poultry sale (OR = 0.50, 95% CI: 0.30-0.83) was 58.6% (109/186), 59.0% (92/156), 60.7% (139/230), 44.9% (132/295), 36.6% (68/186), respectively.

CONCLUSIONIn the early stage of avian influenza A(H7N9) epidemic in Guangzhou, the rate of acceptance of central slaughtering permanently in residents was not so high. Who deem getting sick due to buying live birds from LPM, who could accept only fresh poultry carcass supply and the male more accept city-wide central slaughtering permanently.

Animals ; Attitude to Health ; Birds ; Epidemics ; Humans ; Influenza A Virus, H7N9 Subtype ; Influenza in Birds ; Influenza, Human ; Male ; Meat-Packing Industry ; Poultry ; Surveys and Questionnaires

China ; Humans ; Public Health ; Research

BACKGROUNDIn March 2013, human cases of infection with a novel A (H7N9) influenza virus emerged in China. The epidemic spread quickly and as of 6 May 2013, there were 129 confirmed cases. The purpose of this study was to analyze the epidemiology of the confirmed cases, determine the impacts of bird migration and temperature changes on the H7N9 epidemic, predict the future trends of the epidemic, explore the response patterns of the government and propose preventive suggestions.

METHODSThe geographic, temporal and population distribution of all cases reported up to 6 May 2013 were described from available records. Risk assessment standard was established by analysing the temperature and relative humidity records during the period of extensive outbreak in three epidemic regions in eastern China, including Shanghai, Zhejiang and Jiangsu provinces. Risk assessment maps were created by combining the bird migration routes in eastern China with the monthly average temperatures from May 1993 to December 2012 nationwide.

RESULTSAmong the confirmed cases, there were more men than women, and 50.4% were elderly adults (age >61 years). The major demographic groups were retirees and farmers. The temperature on the days of disease onset was concentrated in the range of 9°C-19°C; we defined 9°C-19°C as the high-risk temperature range, 0°C-9°C or 19°C-25°C as medium risk and <0°C or >25°C as low risk. The relative humidity on the days of disease onset ranged widely from 25% to 99%, but did not correlate with the incidence of infection. Based on the temperature analysis and the eastern bird migration routes, we predicted that after May, the high-risk region would move to the northeast and inland, while after September, it would move back to north China.

CONCLUSIONSTemperature and bird migration strongly influence the spread of the H7N9 virus. In order to control the H7N9 epidemic effectively, Chinese authorities should strengthen the surveillance of migrating birds, increase poultry and environmental sampling, improve live poultry selling and husbandry patterns and move from a "passive response pattern" to an "active response pattern" in focused preventive measures.

Animals ; Birds ; China ; epidemiology ; Influenza A Virus, H7N9 Subtype ; pathogenicity ; Influenza in Birds ; epidemiology ; Temperature