Objective To investigate epidemiological characteristics of animal plague in Microtus brandti plague foci in China from 2005-2013,and to found the reason for cross epidemic of Microtus brandti and Mongolian gerbil plague.Methods Totally 135 Yesinia pestis (Y.pestis) were isolated in Microtus brandti plague foci from 2005 to 2013.According to the typing method of Y.pestis and The Criteria of Plague Natural Foci and Animal Plague Epidemic(GB 16883-1997),bacteria type was identified using biochemical tests and sugar alcohols glycolysis test.Monitoring reports of the plague epidemic situation in Abag Banner,Xilinhot,Sonid left Banner,Xi Ujimqin Banner,Dong Ujimqin Banner,Inner Mongolia were collected.The epidemiological distribution of animal plague in Microtus brandti plague foci was analyzed.Results In 135 strains tested which were isolated from 2005-2007 and 2010,128 strains were fermented farinose,unfermented rhamnose; and 7 strains were fermented rhamnose,unfermented arabinose in 2008.According to the types of Microtus brandti Y.pestis (fermented rhamnose,unfermented arainose) and Mongolian gerbil Y.pestis (fermented arainose,unfermented rhamnose),Microtus brandti plague was identified in the epidemic in Xilinhot and Dong Ujimqin Banner in 2008.The Mongolian gerbil plague was epidemic in Abag Banner,Xilinhot and Xi Ujimqin Banner in2005-2007 and 2010.Conclusions In 2005,Mongolian gerbil type of Y.pestis is first isolated in Abag Banner,Xilinhot and Xi Ujimqin Banner.It is confirmed a newly discovered Mongolian gerbil plague foci.Abag Banner,Xilinhot,Sonid left Banner,Xi Ujimqin Banner and Dong Ujimqin Banner are Microtus brandti plague foci,only Dong Ujimqin Banner is Microtus brandti plague foci,others are two types of Microtus brandti and Mongolian gerbil plague foci.Since 2005,new epidemic situation is found,the Microtus brandti plague foci is becoming complex.It is a serious threat to human being.We must further strengthen the research and prevention in future.

Objective To analyze and evaluate the application of indirect hemagglutination test (IHA) method in the epidemic area of Meriones unguiculatus in Inner Mongolia.Methods The plague monitoring summary and epidemic analysis reports of each year in Inner Mongolia from 1996 to 2016 were collected.The serum results of the IHA method were analyzed,including the time,region and the distribution of host animals.Results From 1996 to 2016,a total of 38 096 serum samples were detected from various host animals,and 172 positive samples were detected,with a positive rate of 0.45％.In the 21 years,except 2001 and 2015,the occurrence and prevalence of plague were judged by the IHA method for the remaining 19 years.There were 10 counties detected positive sera by IHA method;the positive results were detected by IHA method in 6 kinds of host animals,including 5 rodents and 1 carnivorous,and the positive rate of Rhombomys opimus was up to 6.17％ (91/1 475),the highest titer of the seropositive host animals was as high as 1:10 240.Conclusions The IHA method is easy to operate and economical.It plays a huge role in the timely detection of the epidemic in systematic monitoring of the Meriones unguiculatus in Inner Mongolia.

Objective:To study the effect of samarium trioxide (Sm 2O 3) particles on rat lung tissue and compare it with the same dose of silica (SiO 2) particles, in order to find the reference index for early screening of pneumoconiosis. Methods:In October 2018, 72 SPF healthy male rats were randomly divided into control group, SiO 2 group and Sm 2O 3 group. The lungs of rats in each group were perfused with 2.0 ml/kg normal saline and 280 mg/kg SiO 2 and Sm 2O 3 particle suspension by one-time non exposed tracheal perfusion. The lungs of rats were stained with hematoxylin eosin (HE) staining, and the pathological changes of lung tissues were observed. The concentrations of SNAIL homologue 1 (SNAI1) , SNAIL homologue 2 (SNAI2) , and heat shock protein-27 (HSP-27) in rat serum were detected by enzyme-linked immunosorbent assay. 0.5 g of lung tissue from rats in Sm 2O 3 group and control group exposed to dust for 56 days was screened for long-chain noncoding RNA (lncRNA) and circular RNA (circRNA) . Results:After 7 days of dust exposure, the alveoli in SiO 2 group and Sm 2O 3 group were disordered, and lymphoid tissue aggregation and proliferation were observed around the bronchial wall. At 14 days, a large number of lymphocytes infiltrated in SiO 2 group, and a small number of macrophages containing Sm 2O 3 and fibrotic nodules scattered in Sm 2O 3 group. At 28 days, a small amount of lymphocyte infiltration appeared in SiO 2 group, and fibrotic nodules were seen in some areas of Sm 2O 3 group. At 56 days, there was a small amount of fibroblast proliferation in SiO 2 group, and a large number of fibrotic nodules containing gray black matter were seen in Sm 2O 3 group. There was no significant difference in lung organ coefficient among groups at different dust exposure time ( P>0.05) . After 14 days of dust exposure, the contents of SNAI1 and SNAI2 in serum of rats in SiO 2 group were lower than those in control group, the content of SNAI2 in serum of Sm 2O 3 group was lower than that in control group, and the contents of SNAI1 and SNAI2 in serum of Sm 2O 3 group were higher than those in SiO 2 group ( P<0.05) . The content of HSP-27 in SiO 2 group was lower than that in control group ( P<0.05) . After 56 days of dust exposure, the content of HSP-27 in Sm 2O 3 group was lower than that in control group ( P<0.05) . At 56 days, lncRNA in Sm 2O 3 group was up-regulated by 148 and down regulated by 725, circRNA was up-regulated by 16 and down regulated by 153. Conclusion:Sm 2O 3 can cause lung injury in rats, and the change of SNAI2 content can be detected in the early stage, which can be used as a reference index for early screening of pneumoconiosis. There are differences in the expression of lncRNA and circRNA after 56 days of dust exposure in rats, which may be related to the pathogenesis of pneumoconiosis.

Objective:To study the effect of samarium trioxide (Sm 2O 3) particles on rat lung tissue and compare it with the same dose of silica (SiO 2) particles, in order to find the reference index for early screening of pneumoconiosis. Methods:In October 2018, 72 SPF healthy male rats were randomly divided into control group, SiO 2 group and Sm 2O 3 group. The lungs of rats in each group were perfused with 2.0 ml/kg normal saline and 280 mg/kg SiO 2 and Sm 2O 3 particle suspension by one-time non exposed tracheal perfusion. The lungs of rats were stained with hematoxylin eosin (HE) staining, and the pathological changes of lung tissues were observed. The concentrations of SNAIL homologue 1 (SNAI1) , SNAIL homologue 2 (SNAI2) , and heat shock protein-27 (HSP-27) in rat serum were detected by enzyme-linked immunosorbent assay. 0.5 g of lung tissue from rats in Sm 2O 3 group and control group exposed to dust for 56 days was screened for long-chain noncoding RNA (lncRNA) and circular RNA (circRNA) . Results:After 7 days of dust exposure, the alveoli in SiO 2 group and Sm 2O 3 group were disordered, and lymphoid tissue aggregation and proliferation were observed around the bronchial wall. At 14 days, a large number of lymphocytes infiltrated in SiO 2 group, and a small number of macrophages containing Sm 2O 3 and fibrotic nodules scattered in Sm 2O 3 group. At 28 days, a small amount of lymphocyte infiltration appeared in SiO 2 group, and fibrotic nodules were seen in some areas of Sm 2O 3 group. At 56 days, there was a small amount of fibroblast proliferation in SiO 2 group, and a large number of fibrotic nodules containing gray black matter were seen in Sm 2O 3 group. There was no significant difference in lung organ coefficient among groups at different dust exposure time ( P>0.05) . After 14 days of dust exposure, the contents of SNAI1 and SNAI2 in serum of rats in SiO 2 group were lower than those in control group, the content of SNAI2 in serum of Sm 2O 3 group was lower than that in control group, and the contents of SNAI1 and SNAI2 in serum of Sm 2O 3 group were higher than those in SiO 2 group ( P<0.05) . The content of HSP-27 in SiO 2 group was lower than that in control group ( P<0.05) . After 56 days of dust exposure, the content of HSP-27 in Sm 2O 3 group was lower than that in control group ( P<0.05) . At 56 days, lncRNA in Sm 2O 3 group was up-regulated by 148 and down regulated by 725, circRNA was up-regulated by 16 and down regulated by 153. Conclusion:Sm 2O 3 can cause lung injury in rats, and the change of SNAI2 content can be detected in the early stage, which can be used as a reference index for early screening of pneumoconiosis. There are differences in the expression of lncRNA and circRNA after 56 days of dust exposure in rats, which may be related to the pathogenesis of pneumoconiosis.

Objective To understand the epidemiological characteristics of recent brucellosis in Hohhot.Methods Clinical data of patients with brucellosis in Hohhot City were retrospectively analyzed,and the patients were diagnosed in the outpatient clinic of Comprehensive Center for Disease Prevention and Control of Inner Mongolia Autonomous Region from 2014 to 2017.To analyze the patient's area,age,gender,occupation and time distribution of the disease.Results A total of 1 940 patients with brucellosis were diagnosed in Hohhot from 2014 to 2017,with an average age of 50.8 years old.There were 1 464 males with an average age of 50.4 years old and 476 females with an average age of 51.9 years old;the male-female ratio was 3:1.The number of cases of brucellosis in 2014-2017 was 612,649,402,and 277,respectively.Brucellosis was mainly distributed in three districts including Horinger County (937 cases),Tumd Left Banner (236 cases) and Tuoketuo County (191 cases),accounting for 70.31％ (1 364/1 940) of the total number of cases in the city.The age of onset was at least 1 year old,the oldest age was 86 years old,and most cases were in the 45-＜ 65 age group,the total number of cases was 1 046,accounting for 53.92％ (1 046/1 940) of the total number of cases in the city;the occupational distribution was mainly farmers (1 795 cases),herders (13 cases) and veterinarians (17 cases),with a total of 1 825 cases,accounting for 94.07％ (1 825/1 940).The time distribution was mainly concentrated in March-July,and the number of cases was 1 157 cases.Conclusions The number of brucellosis cases in Hohhot area of Inner Mongolia is mainly from Horinger County,Tumd Left Banner and Tuoketuo County;the cases occur frequently in Spring and Summer;the age of onset is mainly between 45-＜ 65 years old,they are mainly male farmers.

Objective:To understand the clinical manifestations and prognosis of severe bubonic plague, and to explore the treatment experience of severe bubonic plague.Methods:A retrospective analysis was conducted on the clinical data and treatment of a case of severe bubonic plague admitted to Huade County on November 11, 2019.Results:The case of bubonic plague was a 55-year-old male, and outbreak after hunting the hare at the foci. The clinical manifestations included fever, fatigue, left armpit skin hard, swelling, heat and pain, distinctness of lymph node enlargement in later stage, hiccups and pleural effusion. Laboratory tests showed diffuse intravascular coagulation (DIC), sepsis and multiple organ dysfunctions. Bubonic plague was confirmed by positive culture of Yersinia pestis and positive phage lysis test on the 3rd day after admission. After platelet, plasma, fluid resuscitation and streptomycin combined with moxixacin, DIC and multiple organ functions were restored to normal and the hard swelling subsided. The course of treatment lasted for 19 days, the body temperature returned to normal and the patient recovered. Conclusions:This patient is a severe case of bubonic plague characterized with lymphangitis, skin sclerosis and abnormal coagulation. Timely identification, evaluation, early and combined treatment is the key to successful treatment.

Objective:To analyze the plague monitoring results of Marmota sibirica plague natural focus in Hulunbuir Plateau, and to study the characteristics of development and variation of the plague focus. Methods:From 2009 to 2020, monitoring was conducted in Manzhouli City, Prairie Chenbarhu Banner, Xin Barag Left Banner, and Xin Barag Right Banner from May to September each year. The one-day bow-clip method was used to investigate the density of the Spermophilus dauricus, and the 5-meter clamp method was used to investigate other small rodents. The classification and identification of ectoparasite fleas were done by using low power microscope. According to "Diagnostic Criteria for Plague" (WS 279-2008), the detectable materials of rats and fleas were tested, and Yersinia pestis was isolated and cultured. The serums of collected rats were detected by indirect hemagglutination test. Results:From 2009 to 2020, the average density of dauricus in Marmota sibirica plague natural focus of Hulunbuir Plateau was 0.45/hm 2, and the capture rate of other small rodents was 1.25% (787/63 091). A total of 9 species, 8 genera and 4 families of rodents were captured. The total flea infection rate of Spermophilus dauricus was 28.37% (1 945/6 856) and the fleas index was 1.04. A total of 3 species, 3 genera and 2 families of fleas were collected. A total of 6 674 Spermophilus dauricus were dissected and 6 787 fleas were cultured in 2 537 groups. The Yersinia pestis test was negative. A total of 6 795 serum samples from Spermophilus dauricus were detected, of which 11 were positive with a positive detection rate of 0.16%. The highest titer of positive serum was 1∶1 280. Indirect hemagglutination test positive materials were found for 5 consecutive years from 2010 to 2014; the positive serums were found in Manzhouli City and Xin Barag Right Banner. Conclusions:The Yersinia pestis antibady positive serum of Spermophilus dauricus has been detected in Marmota sibirica plague focus of Hulunbuir Plateau for many years, which is worthy of high vigilance. In the future, continuous surveillance should be carried out, bacterial detection should be strengthened, possible plague outbreaks should be detected in time, and various plague prevention and control should be done well.

Objective:To grasp the exposure factors and risk factors of brucellosis in animal products practitioners in Xilinhot, and provide data support for targeted prevention and control of the disease.Methods:In 2018, employees of different types and sizes of cattle and sheep slaughtering and processing related enterprises, as well as individual practitioners engaged in animal product acquisition, trafficking, market transactions, street slaughtering and other activities were selected as the target of the survey in Xilinhot City, Inner Mongolia Animal Products Processing Zone, to conduct a group survey on the selected enterprises, and conduct surveys on individual practitioners by means of searching in the market and recruiting free clinics. The survey was focused on basic conditions, incidence, types of work, and work habits. The sera of the survey subjects were collected for testing. Risk factors were analyzed for the work habits of seropositive cases with brucellosis.Results:A total of 15 cattle and sheep slaughter and processing enterprises were investigated, including 371 workers, of whom 24 were seropositive; 219 individual practitioners were surveyed, 38 of whom were seropositive. Among different types of work, enterprise workers were involved in a total of 10 types of work, of which dead lambs were the most dangerous, with a prevalence of 26.67% (4/15), followed by boning meat, with a prevalence of 14.71% (15/102); 11 individuals were involved in 10 types of work, of which eviscerate meat was the most dangerous, with a prevalence of 50.00% (6/12), followed by treatment of dead lambs, with a prevalence of 33.82% (23/68). As a result of the survey of risk factors, slaughtering and processing enterprises practitioners were surveyed 13 types of work habits, 5 of which were risk factors for brucellosis, including mouth tools, scratching the skin, not wearing a hat, contaminating the whole body, and contaminating the head and face. The individual pratitioners were investigated 12 work habits, 5 of which were risk factors for brucellosis, including not wearing a mask, not taking a bath after work, contaminating the limbs, contaminating the head and face, and not washing hands before meals.Conclusions:Workers engaged in boning meat and dead lamb processing are at higher risk of contracting brucellosis. Individuals and enterprise workers have some work habits, which are risk factors for contracting brucellosis. Publicity and education and behavior intervention measures should be strengthened in the future.

Objective:To investigate the epidemic characteristics of human brucellosis in Inner Mongolia Autonomous Region from 2018 to 2020, and provide a reliable scientific basis for formulating brucellosis prevention and control strategies in Inner Mongolia Autonomous Region.Methods:A retrospective study was carried out to collect data of human brucellosis in Inner Mongolia Autonomous Region from 2018 to 2020 from the "China Disease Control and Prevention Information System", and the monitoring data and information of confirmed cases were collected from the annual summary data reported by the leagues (cities) of the Inner Mongolia Autonomous Region. Using descriptive epidemiological methods, the epidemic situation, three distributions (time, region and population distributions) of brucellosis, and the serological and pathogenic test results of active monitoring population were analyzed.Results:From 2018 to 2020, a total of 40 665 cases of brucellosis were reported in Inner Mongolia Autonomous Region, with an annual average incidence rate of 53.47/100 000. The number of annual incidence had increased from 10 111 in 2018 to 16 406 in 2020, and the annual incidence rate had increased from 39.99/100 000 in 2018 to 64.60/100 000 in 2020. The spring and summer was the peak incidence, mainly in March to August, accounting for 64.90% (26 390/40 665) . There were reports of brucellosis cases in 12 leagues (cities) of Inner Mongolia Autonomous Region, and the top 3 regions with the number of reported cases were Tongliao City (9 896 cases), Xing'an League (6 136 cases) and Chifeng City (4 934 cases). The age of onset of brucellosis cases was mainly 30 - < 65 years old(33 539 cases), and the sex ratio between men and women was 2.18 ∶ 1.00 (27 890 ∶ 12 775); the occupational distribution was mainly farmers, accounting for 79.23% (32 221/40 665). From 2018 to 2020, 704 085 people were actively monitored in the region, of which 391 941 were serologically tested, and the infection rate was 4.57% (17 920/391 941); and there were 9 539 new cases in the active monitoring population. In 3 years, 19 strains of Brucella sheep type 3 and 11 strains of Brucella sheep type 1 were isolated. Conclusions:From 2018 to 2020, the incidence rate of brucellosis in Inner Mongolia Autonomous Region is increasing year by year. There are many new cases in the active monitoring population, and more underreporting cases. It is recommended to expand the scope of monitoring, strengthen pathogen monitoring among humans and animals, and joint prevention and control of various departments to improve the self-protection awareness of the masses.

Objective:To analyze the current status of duplicated reporting of brucellosis in China during 2005-2017, to understand the impact of duplicated reporting on the incidence of brucellosis, analyze the possible causes of duplicated reporting, and put forward propose solutions to further improve the brucellosis surveillance data quality.Methods:Data were from brucellosis case reporting cards in National Notifiable Disease Report System (NNDRS), Excel 2010 software was used to establish the database, the duplicated reporting was identified by using Spark DataFrame aggregation analysis in Python 3.2.Results:During 2005-2017, a total of 499 577 cases of brucellosis were reported, but the duplicated reporting rate was 75.76/10 000 (3 785/499 577). The duplicated reporting rate in same year was 37.21/10 000 (1 859/499 577), the duplicated reporting rate in other year was 39.87/10 000 (1 992/499 577) and the overall duplicated reporting rate increased year by year. The duplicated reporting rate in same institution was 33.59 % (1 271/3 785) and the duplicated reporting rate by other institutions was 66.41 % (2 514/3 785). Hospitals had the highest number of duplicated reporting (2 757), and community healthcare centers had the highest of duplicated reporting rate (281.27/10 000) (123/4 373). The reported incidence of brucellosis was 2.926 4/100 000 in 2017, the corrected incidence was 2.844 8/100 000 after removing the duplicated reporting, which was the maximum decrease from 2005 to 2017, the corrected incidence decreased by 2.79 %. From 2005 to 2017, the average reported incidence of brucellosis in Xinjiang Uygur autonomous region was 14.712 0/100 000, and the corrected incidence was 14.060 0/100 000 after removing the duplicate reporting, with a decrease by 4.43 %, the biggest decline in China. The average reported incidence of brucellosis in Ningxia Hui autonomous region was 13.987 1/100 000, and the corrected incidence of brucellosis was 13.662 2/100 000, with a decrease of 2.32 %, ranking second in China. The reasons for duplicated reporting of brucellosis included repeated medical care seeking in same or different medical institutions in same year or other year, including the repeated medical care seeking in other areas. Conclusions:During 2005-2017, the number of duplicated reporting of brucellosis cases was on the rise in China. Hospital and community health service centers had highest case number and rate of duplicate reporting respectively, the duplicated reporting was mainly caused by re-reporting by other institutions or in other years. The duplicated reporting of brucellosis had greatly affected the accuracy of surveillance data of brucellosis in some provinces, such as Xinjiang and Ningxia. It is recommended to further strengthen brucellosis reporting management, improve data quality of NNDRS.