The Wenchuan Earthquake caused severe injuries and deaths as well as subsequent serious potential risks to public health and hygiene in the worst-hit areas. There were 16 casualties in the Mianyang CDC system and the township amp; county CDC networks were destroyed in the worst-hit counties after the earthquake. The Mianyang CDC quickly launched its emergency response plan for major natural disasters within two hours after the earthquake, prepared and improved the technical guide for disease prevention after the earthquake and rapidly sent out quick response team. With the help of CDC aid teams across the country, Mianyang CDC successfully disinfected and buried 6,767,568 corpses, and disposed of millions of animal carcasses.They also disinfected and sterilised an area of 932.595 million square metres, eradicating 3,514,166 fly and mosquito breeding places and treating 5,254,228 cesspit times. By June 30, they had examined 11,092 water supply units and carried out disinfection of 319.7997 million cubic metres of drinking water. Besides, dynamic monitoring for water quality in the four worst-hit areas in Mianyang urban areas. They organised hygienic enforcement supervisors to develop food safety inspection, regulated catering services of the centralised settlements, destroyed spoiled and expired food and vegetables. The authorities prevented the masses from eating dead poultry or meat from carcasses to ensure no occurrence of food poisoning after the earthquake. Standard administration of the 170 settlements of the earthquake-afflicted people and 132 settlements of evacuated people was carried out in accordance with the rules of "Six Provisions and Four Reinforcements" and this would ensure no recurrence of public health events in the settlements. On Day 3 (May 15) after the earthquake, they established a real-time monitoring and report network of the epidemic situation after the earthquake and monitored diseases and symptoms of the people in the resettled region to ensure no occurrence of major epidemic cases. The monitoring results showed that the number of infectious disease cases was comparable to that in the previous years. Moreover, they carried out intensive vaccination with hepatitis A vaccine in children 41196 person times, stored 100,000 person oral cholera vaccine and monitoring for new sexually transmitted diseases. A total of 10.1265 million copies of publicity materials were organised printed and distributed. They developed large-scale health education and a massive patriotic health campaign by means of the media and organised the masses to engage in sanitation and hygiene as well as controlling flies, mosquitoes and rats in the temporary earthquake-proof places. Under the unified command of the Mianyang emergency response headquarters, the centers for health and epidemic control and prevention at various levels of disaster relief continued to dispose of carcasses and disinfect and bury corpses as well as monitor water quality, so as to ensure the secondary disasters could be prevented in advance.
ObjectiveTo investigate the strategy adjustment of breast cancer surgery management process during the outbreak of novel coronavirus pneumonia (NCP), and to summarize the experience.MethodsBased on "Pneumonitis Diagnosis and Treatment Plan for Novel Coronavirus Infection (Fifth Trial Version)" and "Surgery Work System During the Prevention and Control of Novel Coronavirus Infection in Mianyang Central Hospital (Second Edition)", the breast surgery department adjusted strategies and plans for breast cancer surgery during the epidemic.ResultsFrom January 25, 2020 to February 11, 2020, 8 cases of breast cancer surgery were performed in our hospital. They were all females, with an average age of 45 years. Five patients underwent modified radical mastectomy, 2 patients underwent breast-conserving surgery plus sentinel lymph nodes biopsy, and 1 case underwent breast-conserving surgery plus axillary lymph node dissection. All 8 patients were diagnosed as invasive ductal carcinoma of breast by hollow needle biopsy. All patients recovered smoothly after surgery, no complications occurred, and they were discharged as planned. No patients or medical staff showed NCP exposure and infection.ConclusionDuring the NCP epidemic, breast cancer surgery can be performed and the epidemic can be effectively prevented and controlled by adjusting the work flow and strategy.
ObjectiveTo analyze and compare the incidence, mortality, temporal trends, and cancer spectrum differences between China and the United States (US), providing theoretical support for cancer prevention and control in China. MethodsAge standardized incidence rate (ASIR), age standardized mortality rate (ASMR), and cancer site composition were extracted from GLOBOCAN, Cancer Statistics 2025, the China Cancer Registry Annual Report, and other epidemiological sources. Spatial (urban-rural, sex specific) and temporal distributions were described, and average annual growth rate (AAGR) were calculated. ResultsFrom 2005 onward, China exhibited a modest rise in ASIR, whereas the US showed a decline (AAGR: 0.58 vs –0.42); nevertheless, China’s overall incidence remained lower (2022 ASIR = 201.61/100 000) than that of the US (303.60/100 000). Both countries experienced decreasing ASMR (AAGR: –1.03 vs –1.72). In both nations, male ASIR and ASMR were higher than female. Since 2005, the top three US cancers had remained prostate (men) or breast (women), lung and colorectal cancer. In China, incidences of lung, colorectal, female breast and thyroid cancers had continued to rise, while stomach and liver cancer incidences had declined yet still rank high among men. Urban ASIR in China exceeded rural rates, whereas rural ASMR was higher than urban counterparts. ConclusionsAccelerating population ageing and lifestyle transitions have driven an upward incidence trend in China, accompanied by a shift towards a mixed pattern of traditional and emerging cancer risks. Drawing on US experience, China should intensify tobacco control measures, expand organized screening and early detection programs, implement comprehensive interventions for priority cancers, strengthen primary level capacity and improve treatment access in rural areas, thereby establishing a more effective national cancer prevention and control system.
Objective To analyze the report status of the pulmonary tuberculosis in the elderly people aged ≥ 65 years old. Methods The reported data of senile pulmonary tuberculosis and the whole population pulmonary tuberculosis at West China Hospital of Sichuan University between January 1, 2012 and December 31, 2022 were retrospective selection. Descriptive methods were used to analyze the different characteristics and etiology of senile pulmonary tuberculosis. Results A total of 2 182 senile pulmonary tuberculosis were reported. The report was mainly positive reports of etiology [1091 cases (50.00%)], and the component ratio increased year by year (χ2=49.986, P<0.001). The proportion of senile pulmonary tuberculosis in the whole population pulmonary tuberculosis increased from 17.62% in 2012 to 29.04% in 2022, and the difference between different years was statistically significant (χ2=40.261, P<0.001). In the reported patients, the male to female ratio was 2.30∶1. There were 7 cases of rifampicin resistant, 1 091 cases of etiology positivity, 674 cases of etiology negativity, and 410 cases of no etiology results. The number of reported cases in the age group of 65-74 was higher than that in the age group of 75 and above. The seasonal distribution was not obvious (concentration<0.3). The patients were mainly from other cities of the province [919 cases (42.12%)], and the Department of Pulmonary and Critical Care Medicine (including the Tuberculosis Ward) was reported the most [1439 cases (65.95%)]. The majority of occupations were retired individuals [952 cases (43.63%)]. Conclusions From 2012 to 2022, the prevention and treatment of senile pulmonary tuberculosis has achieved some results, but the overall burden is still very heavy. The detection of senile pulmonary tuberculosis should be strengthened.
When a clustered coronavirus disease 2019 epidemic occurs, how to prevent and control hospital infection is a challenge faced by each medical institution. Under the normalization situation, building an effective prevention and control system is the premise and foundation for medical institutions to effectively prevent and control infection when dealing with clustered epidemics. According to the principles of control theory, medical institutions should quickly switch to an emergency state, and effectively deal with the external and internal infection risks brought by clustered epidemics by strengthening source control measures, engineering control measures, management control measures and personal protection measures. This article summarizes the experience of handling clustered outbreaks in medical institutions in the prevention and control of coronavirus disease 2019, and aims to provide a reference for medical institutions to take effective prevention and control measures when dealing with clustered outbreaks.
In the Spring Festival of 2020, China waged an unexpected battle against coronavirus disease 2019. Within the scope of constructing smart hospitals, it has become a brand-new subject concerning how the construction can facilitate the scientific prevention and control of the epidemic. According to the development direction, basing on the concept of “patient-centered” medical services, and combining with the construction ideas of traditional medical information products and emerging technologies, Guangdong Provincial People’s Hospital, as the first government-leading “demonstration hospital for 5G application”, was fully dedicated to promoting the mode of contactless diagnosis and treatment and providing smart medical information service, thereby setting up a “scientific and technological firewall against the epidemic”.
The coronavirus disease 2019 (COVID-19) epidemic has had a serious impact in the world. In the absence of vaccines and therapeutic drugs, disinfection has become an important technical means to block the spread of the virus. By analyzing the characteristics of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), we studied a series of disinfection technologies for COVID-19. During the outbreak of COVID-19, Jinan Second Center for Disease Control and Prevention disinfected the houses of the cases to be investigated in a community. The effectiveness of the disinfection technology was verified through the process of disinfection preparation, sampling before disinfection, field disinfection, sampling after disinfection and evaluation of disinfection effect. Compared the data before and after disinfection, the killing rate of the total bacterial colonies in the air and on the surface of the object was more than or equal to 90%, and no SARS-CoV-2 was detected after disinfection. The results show that the disinfection effect of the disinfection technology meets the standard. Finally, through the analysis of the wrong way of disinfection and the harm of over disinfection, the importance of scientific disinfection and precise disinfection are emphasized, and the research has a good guiding value for prevention and control of the epidemic.
Objective To describe the design and application of an emergency response mobile phone-based information system for infectious disease reporting. Methods Software engineering and business modeling were used to design and develope the emergency response mobile phone-based information system for infectious disease reporting. Results Seven days after the initiation of the reporting system, the reporting rate in the earthquake zone reached the level of the same period in 2007, using the mobile phone-based information system. Surveillance of the weekly report on morbidity in the earthquake zone after the initiation of the mobile phone reporting system showed the same trend as the previous three years. Conclusion The emergency response mobile phone-based information system for infectious disease reporting was an effective solution to transmit urgently needed reports and manage communicable disease surveillance information. This assured the consistency of disease surveillance and facilitated sensitive, accurate, and timely disease surveillance. It is an important backup for the internet-based direct reporting system for communicable disease.
Taking the actual situation of the undergraduate medical education in West China School of Medicine, Sichuan University as the real-world reference, combining with literature review, this article analyzes the internal strengths and weaknesses, as well as the external opportunities and threats of the novel teaching system in medical education which combines the online-merge-offline (OMO) approach with inquiry-small class model, and provides deep insights into the opportunities and challenges of the teaching system after matching the influential factors based on the SWOT-CLPV matrix model. Based on these analyses, this article discusses the application of the teaching system combining the OMO approach with inquiry-small class model in medical education in the post-epidemic era, so as to provide a reference and guidance for further popularizing the teaching model and enhancing the quality of medical education to a new level.
Objective To assess the public health impacts and needs, to evaluate performance of anti-epidemic efforts after Lushan earthquake, so as to provide references for the following anti-epidemic work. Methods The day of earthquake occurrence was defined as the first day after earthquake. We collected information and data from the Sichuan Provincial Government, the National Health and Family Planning Commission of the People’s Republic of China, the Health Department of Sichuan Province, Sichuan Center for Disease Control and Prevention, and then we compared the situations of disaster, public health situation in stricken area, emergency response, resource deployment, etc. with those after Wenchuan earthquake in 2008, in order to evaluate the performance of anti-epidemic response during 2 weeks, clarify current situations and demands, and offer a proposal for the following work. Results Emergency response was conducted immediately after the Lushan earthquake. The counterpart assistance was considered at the beginning of team arrangement. The number and professional structure of rescue participants were planned according to needs. Three days after earthquake, anti-epidemic staff arrived at every involved county, town, and even village, which achieved full rescue coverage of locations and interventions. The staff helped reconstruct disease surveillance system, protect source of drinking water and environmental hygiene, etc., which resulted in progressive achievement. Two weeks after the earthquake there were no outbreak and public health emergency event occurred in stricken area. Conclusion The anti-epidemic efforts after Lushan earthquake inherit and develop the lessons from Wenchuan earthquake in 2008. Emergency response is timely, orderly, scientific, and moderate. The deployment of policies, technologies and resources has already been completed during two weeks. Anti-epidemic efforts achieve preliminary results. We suggest that key issues of further work should be the implementation of policies, strategies and measures, such as health management at relocation sites, water and food hygiene, disease monitoring, prevention and control, mass vaccination, scientific disinfection, and health education, in order to improve long-efficacy mechanism and stabilize work performance.