Tibetan sheep,the main domestic animal raised in the Qinghai-Tibet Plateau region,are a source of human plague transmission.In the Qinghai-Tibet Plateau region,Tibetan sheep are considered valuable breeding resources,because of their large body size and high adaptability to high-altitude environments.In recent years,many pastoral areas,particularly those with marmot plague sources,have improved the structure of sheep breeds through pure breeding of Tibetan sheep or hybridization with Tibetan sheep to improve breed quality.The scale of breeding of Tibetan sheep or hybrid sheep is increasing,and their participation in the spread of plague poses a severe challenge to plague prevention and control.This article provides a comprehensive review of the current status of Tibetan sheep plague and related research progress,to provide a theoretical basis for further exploration and research on plague infection and transmission in Tibetan sheep and hybrid sheep.The findings will be critical for conducting risk assessment of Ti-betan sheep plague in marmot plague source areas,enhancing monitoring and early warning capabilities,formulating and implement-ing risk control measures,and strictly preventing the occurrence and spread of human plague.

In order to promote the construction of a multi-point trigger intelligent surveillance and early warning system of the plague in China, the development process, application practice, advantages, and limitations of the plague surveillance and early warning system in China and its role in plague prevention and control are reviewed and analyzed. It is suggested to include multiple departments, carry out a multi-channel monitoring mechanism for plague from different perspectives, further improve the plague surveillance and early warning system, and enhance surveillance and early warning capability.

The discovery of streptomycin in 1943 marked a new era in plague treatment. Over the subsequent eight decades, significant advances have been made through the implementation of various antibiotics, both as monotherapy and in combination regimens. These treatments have included aminoglycosides (such as streptomycin and gentamicin), tetracyclines, sulfonamides, chloramphenicol, quinolones, and beta-lactams, which have dramatically cut down the death rate from plague infections. However, due to bacterial adaptation mechanisms, Yersinia pestis can develop diminished sensitivity or resistance to certain antibiotics. This article examines the resistance mechanisms of Yersinia pestis and analyzes antimicrobial susceptibility patterns and resistance in plague treatment, aiming to provide scientific evidence for clinicians to understand the current status of traditional and new antibiotics in plague treatment and improve the treatment level of plague patients.

Tibetan sheep,the main domestic animal raised in the Qinghai-Tibet Plateau region,are a source of human plague transmission.In the Qinghai-Tibet Plateau region,Tibetan sheep are considered valuable breeding resources,because of their large body size and high adaptability to high-altitude environments.In recent years,many pastoral areas,particularly those with marmot plague sources,have improved the structure of sheep breeds through pure breeding of Tibetan sheep or hybridization with Tibetan sheep to improve breed quality.The scale of breeding of Tibetan sheep or hybrid sheep is increasing,and their participation in the spread of plague poses a severe challenge to plague prevention and control.This article provides a comprehensive review of the current status of Tibetan sheep plague and related research progress,to provide a theoretical basis for further exploration and research on plague infection and transmission in Tibetan sheep and hybrid sheep.The findings will be critical for conducting risk assessment of Ti-betan sheep plague in marmot plague source areas,enhancing monitoring and early warning capabilities,formulating and implement-ing risk control measures,and strictly preventing the occurrence and spread of human plague.

The plague is a infectious disease of natural focus. The occurrence of animal plague is a complex biological phenomenon, which is affected by many factors such as hosts, vectors, geographical landscapes, climate, human activities and so on. Its epidemiological patterns exhibit spatial and temporal characteristics. Therefore, the plague monitoring and early warning has always been the key to plague prevention and control, and remains a current research hotspot. In recent years, with the advancement of spatial epidemiology technology, it has been increasingly applied in plague prevention and control, and has made remarkable achievements in exploring the spatio-temporal relationships, influencing factors, monitoring and early warning of the plague. This article provides an overview of specific applications of spatial epidemiological methods in four areas, including spatial visualization of plague outbreaks, aggregation analysis, exploration of influencing factors, risk prediction and early warning. It aims to offer insights for the plague prevention and control personnel to better understand the suddenness and complexity of the plague from the perspective of spatial epidemiology, to uncover the epidemiological patterns of the plague, and to provide a reference for precise plague prevention and control.

The plague is a infectious disease of natural focus. The occurrence of animal plague is a complex biological phenomenon, which is affected by many factors such as hosts, vectors, geographical landscapes, climate, human activities and so on. Its epidemiological patterns exhibit spatial and temporal characteristics. Therefore, the plague monitoring and early warning has always been the key to plague prevention and control, and remains a current research hotspot. In recent years, with the advancement of spatial epidemiology technology, it has been increasingly applied in plague prevention and control, and has made remarkable achievements in exploring the spatio-temporal relationships, influencing factors, monitoring and early warning of the plague. This article provides an overview of specific applications of spatial epidemiological methods in four areas, including spatial visualization of plague outbreaks, aggregation analysis, exploration of influencing factors, risk prediction and early warning. It aims to offer insights for the plague prevention and control personnel to better understand the suddenness and complexity of the plague from the perspective of spatial epidemiology, to uncover the epidemiological patterns of the plague, and to provide a reference for precise plague prevention and control.

In order to promote the construction of a multi-point trigger intelligent surveillance and early warning system of the plague in China, the development process, application practice, advantages, and limitations of the plague surveillance and early warning system in China and its role in plague prevention and control are reviewed and analyzed. It is suggested to include multiple departments, carry out a multi-channel monitoring mechanism for plague from different perspectives, further improve the plague surveillance and early warning system, and enhance surveillance and early warning capability.

The discovery of streptomycin in 1943 marked a new era in plague treatment. Over the subsequent eight decades, significant advances have been made through the implementation of various antibiotics, both as monotherapy and in combination regimens. These treatments have included aminoglycosides (such as streptomycin and gentamicin), tetracyclines, sulfonamides, chloramphenicol, quinolones, and beta-lactams, which have dramatically cut down the death rate from plague infections. However, due to bacterial adaptation mechanisms, Yersinia pestis can develop diminished sensitivity or resistance to certain antibiotics. This article examines the resistance mechanisms of Yersinia pestis and analyzes antimicrobial susceptibility patterns and resistance in plague treatment, aiming to provide scientific evidence for clinicians to understand the current status of traditional and new antibiotics in plague treatment and improve the treatment level of plague patients.

Objective:To learn about the epidemic dynamics and spatial epidemic characteristics of human brucellosis in Gansu Province.Methods:Data on human brucellosis in Gansu Province reported by China Disease Control and Prevention Information System from January 2016 to December 2020 were collected and analyzed by descriptive epidemiology and spatial clustering analysis.Results:A total of 10 025 cases of human brucellosis were reported in Gansu Province from 2016 to 2020, with a statistically significant difference in incidence rate between years (χ 2 = 242.86, P = 0.001). The incidence was the lowest in 2018 (6.03/100 000), and the highest in 2020 (11.39/100 000). The reported cases were concentrated in 45 - 55 years old, accounting for 34.52% (3 461/10 025); the male to female ratio was 2.91 ∶ 1.00 (7 458/2 567); farmers were the main occupation, accounting for 82.11% (8 232/10 025). Among the 86 counties (cities, districts) in Gansu Province, Yongchang County had the highest number of reported cases in 2020 (339 cases), and Sunan Yugur Autonomous County had the highest incidence in 2020 (190.89/100 000). Spatial autocorrelation analysis showed that there was significant spatial positive correlation between the incidence rate of human brucellosis in Gansu Province from 2016 to 2020 (global Moran's I > 0, Z > 1.96, P < 0.05), showing a spatial clustering distribution. The high-high clustering areas were concentrated in Yongchang County and Sunan Yugur Autonomous County. Conclusion:In Gansu Province, the main population of human brucellosis is middle-aged male farmers, and the incidence of brucellosis is spatially clustered.

Objective:To study the epidemic situation of Marmota himalayana plague and Yersinias infection in Yugur Autonomous County of Sunan (Sunan County) of Gansu Province, and to provide new ideas for prevention and control of plague. Methods:From 2014 to 2018, liver and spleen, cecum, throat swabs and blood samples of Marmota himalayana were collected on the spot in Sunan County, where Yersinia strains were isolated and identified, and plague F1 antigen and antibody were detected. Results:A total of 634 liver and spleen samples, 427 cecum samples and 426 throat swabs samples were collected from Marmota himalayana, and 23 strains of Yersinia pestis, 2 strains of Yersinia marcescens, and 1 strain of Yersinia flexneri were detected, with the detection rates of 3.63% (23/634), 0.47% (2/427) and 0.23% (1/426), respectively. The detection rate of Yersinia pestis in different years was statistically significantly different (χ 2 = 13.19, P = 0.010). A total of 1 822 serum samples of Marmota himalayana were detected, and 5 F1 antibody positive samples were detected, with a positive rate of 0.27%, the difference of positive rate between different years was statistically significant (χ 2 = 25.22, P < 0.001); 282 liver and spleen tissue homogenates of Marmota himalayana were detected, 22 F1 antigen positive samples were detected, the positive rate was 7.80%, and there was no statistically significant difference between different years (χ 2 = 7.85, P = 0.097). The 23 strains of Yersinia pestis detected were distributed in Mati Tibetan Township (12 strains), Dahe Township (6 strains) and Qifeng Tibetan Township (5 strains); 1 strain of Yersinia flexneri and 2 strains of Yersinia marcescens were both located in Dahe Township. Conclusion:There is an epidemic of plague among animals in Sunan County from 2014 to 2018, and the areas where Yersinia pestis and non pathogenic Yersinia are detected overlapped.