2.Prevalence of Hydatid Cysts in Livestock Animals in Xinjiang, China.
Meng QINGLING ; Wang GUANGLEI ; Qiao JUN ; Zhu XINQUAN ; Liu TIANLI ; Song XUEMEI ; Zhang JINSHENG ; Wang HUISHENG ; Cai KUOJUN ; Chen CHUANGFU
The Korean Journal of Parasitology 2014;52(3):331-334
Hydatid worms, hosted by humans and animals, impose serious human health risk and cause significant livestock production loss. To better understand the disease infection status in Xinjiang, China, we investigated the disease epidemics in 4 livestock animals, i.e., cattle, sheep (both sheep and goat), camels, and horses, slaughtered at the abattoirs in Urumqi, Yining, Tacheng, and Altay areas. The results showed that the animals were infected at different rates, in the order of sheep (9.8%), cattle (8.4%), camels (6.8%), and horses (4.3%). The infection rates were found to be different between the abattoirs in various regions even for the same animals. For sheep, the rates increased significantly as the animals grew older. It was 1.9% before 1 year of age and increased to 8.2% in the age of 1-2 years, and further increased to 12.3% when the animals were 3-4 years old, and reached 17.2% when they were 5-6 year old. Sheep older than 6 years had an infection rate of 19.5%. This study demonstrates that the 4 livestock animals in the pastoral areas in Xinjiang were infected by the parasites to various extend. This study is the first systematic investigation of the hydatid worms in various livestock animals in Xinjiang, China, which provides epidemiological information about the infection of hydatid worms in livestock, and is valuable in developing strategies for prevention and control of the hydatid disease.
Age Factors
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Animals
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China/epidemiology
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Echinococcosis/epidemiology/*veterinary
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*Livestock
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Prevalence
3.Investigation on epidemic status of echinococcosis in pastoral villages of Chengduo county, Qinghai.
Qing FU ; Xiu-min HAN ; Li-ying WANG ; Dai-yang SANGBA ; Xiao MA ; Yong-shun WANG ; Wei-ping WU
Chinese Journal of Epidemiology 2010;31(4):471-472
Adult
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China
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epidemiology
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Echinococcosis
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epidemiology
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Female
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Humans
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Male
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Rural Population
4.A historical view of alveolar echinococcosis, 160 years after the discovery of the first case in humans: part 1. What have we learnt on the distribution of the disease and on its parasitic agent?
Dominique Angèle VUITTON ; Qian WANG ; Hong-Xia ZHOU ; Francis RAOUL ; Jenny KNAPP ; Solange BRESSON-HADNI ; Hao WEN ; Patrick GIRAUDOUX
Chinese Medical Journal 2011;124(18):2943-2953
Since the first 2 cases observed in southern Germany and the correct identification of a parasite at the origin of the disease by the famous scientist Rudolf Virchow in 1855, the borders of the endemic area of alveolar echinococcosis (AE) have never stopped to expand. The parasite was successively recognized in Switzerland, then in Russia, Austria and France which were long considered as the only endemic areas for the disease. Cases were disclosed in Turkey in 1939; then much attention was paid to Alaska and to Hokkaido, in Japan. The situation totally changed in 1991 after the recognition of the Chinese endemic areas by the international community of scientists. The world map was completed in the beginning of the 21st century by the identification of AE in most of the countries of central/eastern Europe and Baltic States, and by the recognition of cases in central Asia. Up to now, the disease has however never been reported in the South hemisphere and in the United Kingdom. In the mid-1950s, demonstration by Rausch and Schiller in Alaska, and by Vogel in Germany, of the distinction between 2 parasite species responsible respectively for cystic echinococcosis (“hydatid disease”) and AE put an end to the long-lasting debate between the "dualists", who believed in that theory which eventually proved to be true, and the "unicists", who believed in a single species responsible for both diseases. At the end of the 20th century, molecular biology fully confirmed the "dualist" theory while adding several new species to the initially described E. granulosus; within the past decade, it also confirmed that little variation existed within Echinococcus (E.) multilocularis species, and that AE-looking infection in some intermediate animal hosts on the Tibetan plateau was indeed due to a new species, distinct from E. multilocularis, named E. shiquicus. Since the 1970s, the unique ecological interactions between the landscape, the hosts, and E. multilocularis have progressively been delineated. The important role of the rodent/lagomorph reservoir size for the maintenance of the parasite cycle has been recognized within the last 2 decades of the 20th century. And the discovery of a close relationship between high densities of small mammals and particularities in land use by agriculture/forestry has stressed the responsibility of political/economic decisions on the contamination pressure. Urbanization of foxes in Europe and Japan and the major role of dogs in China represent the new deals at the beginning of the 21st century regarding definitive hosts and prevention measures.
Animals
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China
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epidemiology
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Echinococcosis, Hepatic
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epidemiology
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parasitology
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Echinococcus
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pathogenicity
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Humans
5.Today's regional distribution of echinococcosis in China.
Chinese Medical Journal 2002;115(8):1244-1247
OBJECTIVETo review the current regional distribution of echinococcosis in China for the purpose of providing the scientific data for the control of echinococcosis in the future.
DATA SOURCESAll data in this paper were originated from related references in Chinese or English language Chinese journals except one from Lancet.
STUDY SELECTIONThirty-one original articles published from 1983 - 2001 were selected according to the stated purpose and 7 of them were written by the author.
DATA EXTRACTIONThe present paper addresses cystic echinococcosis (CE) and alveolar echinococcosis(AE), as well as their respective regional distribution.
RESULTSCE was distributed chiefly in Western China where Gansu, Xinjiang, Qinghai, Ningxia, Inner Mongolia, Tibet, west Sichuan and Qingzang plateau were hyper-endemic areas. Regional distribution of AE was not so extensive as that of CE, but it was found mainly in northwest China as well. Moreover, AE was extremely harmful to human body and "AE cancer" is popularly called.
CONCLUSIONSteps should be taken in the future heath policy to control its spread. Regional distribution of echinococcosis is so extensive in China that CE and AE should be increasingly controlled today.
China ; epidemiology ; Echinococcosis ; epidemiology ; prevention & control ; Health Policy ; Humans
6.Infection Status of Hydatid Cysts in Humans and Sheep in Uzbekistan.
Sung Tae HONG ; Yan JIN ; Khikmat ANVAROV ; Abdukhakim KHADJIBAEV ; Samin HONG ; Yusufjon AHMEDOV ; Utkir OTABOEV
The Korean Journal of Parasitology 2013;51(3):383-385
Uzbekistan is endemic of cystic echinococcosis (CE). In order to estimate endemicity of CE, we collected data from emergency surgery due to CE in 2002-2010 and also investigated the prevalence of hydatid cysts in the liver and lungs of sheep at an abattoir in Uzbekistan from July 2009 to June 2010. In 14 emergency hospitals, 8,014 patients received surgical removal or drainage of CE during 2002-2010, and 2,966 patients were found in 2010. A total of 22,959 sheep were grossly examined of their liver and lungs, and 479 (2.1%) and 340 (1.5%) of them were positive for the cyst in the liver and lungs, respectively. Echinococcus granulosus is actively transmitted both to humans and sheep, and CE is a zoonotic disease of public health priority in Uzbekistan.
Animals
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Echinococcosis/epidemiology/*parasitology
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Humans
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Sheep
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Sheep Diseases/epidemiology/*parasitology
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Uzbekistan/epidemiology
7.Community survey, treatment and long-term follow-up for human cystic echinococcosis in northwest China.
Wen-Bin ZHANG ; Yan XING ; Xin-Cai XU ; Xiao-Kaiti ABUDUKADEER ; Yun-Hai WANG ; Hao WEN
Chinese Medical Journal 2011;124(19):3176-3179
BACKGROUNDHuman cystic echinococcosis (CE) is a parasitic zoonosis of major public health importance throughout the world. CE is endemic throughout central Asia including northwestern China. In China, CE has been reported in 21 provinces, autonomous regions and municipalities, covering approximately 87% of China's territories. It is most common in the pastoral and semi-pastoral western provinces and regions. This study aimed to reveal the natural history, curative effect and possible re-infection risk factors of human CE through long termed follow-up of treated and untreated CE cases in Hobukesar, Xingjiang, China.
METHODSFollow-up studies on CE were performed twice in Hobukesar from August 2005 to October 2008, after an initial mass screening performed in 1995 and 1996. Ultrasound scan was the primary diagnostic method.
RESULTSAmong 24 patients with confirmed CE, 22 were treated (surgery in 19 and chemotherapy in three). Two recurrent cases and one re-infection case were subsequently found during follow-up. The CE type of one of the recurrent cases reverted from CE4 to CE3, as classified using World Health Organization (WHO) guidelines.
CONCLUSIONSUltrasound was required to differentiate primary, recurrent and re-infection cases during epidemiological investigation and follow-up of CE. Most patients did not change their habits, which may be one possible cause of reinfection. One recurrent case suggested that, despite initial suggestion from the WHO Informal Working Group on Echinococcosis, CE4-type cysts are not inactive.
China ; epidemiology ; Data Collection ; Echinococcosis ; diagnosis ; epidemiology ; therapy ; Follow-Up Studies ; Humans
8.Study of infection of Echinococcus granulosus in yak in spring and its potential role in transmission of cystic Echinococcosis in Rangtang County of Sichuan, China.
Huan Huan HU ; Wei Ping WU ; Li Ying WANG ; Qian WANG ; Yan HUANG ; Ya Yi GUAN
Biomedical and Environmental Sciences 2013;26(3):226-229
Animals
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Cattle
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China
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epidemiology
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Echinococcosis
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epidemiology
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parasitology
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transmission
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Echinococcus granulosus
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pathogenicity
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Humans
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Seasons
9.Spatial analysis of echinococcosis in pastoral area of Qinghai province, 2019.
Tian Tian ZHANG ; Xiao MA ; Wen LEI ; Yu Ying LIU ; Bin LI ; Bing Cun MA ; Shou LIU
Chinese Journal of Epidemiology 2022;43(5):709-715
Objective: To understand the spatial characteristics of echinococcosis and associated factors in the pastoral area of Qinghai province, and provide evidence for the effective prevention and control of echinococcosis. Methods: The number of echinococcosis cases in the pastoral areas of Qinghai in 2019 was collected to perform spatial epidemiological analysis. The thematic map of the distribution of echinococcosis cases was generated with software ArcGIS 10.8 for visual analysis and spatial autocorrelation analysis. The spatial autocorrelation and spatial scanning analysis were performed to estimate the clustering of echinococcosis with software SaTScan 9.5. Software GeoDa 1.14 and ArcGIS 10.8 were used to establish spatial lag model and geographical weighted regression model to analyze the related factors of echinococcosis epidemic. Results: In 2019, the echinococcosis surveillance covered 64 741 people in the pastoral area of Qinghai, and 829 echinococcosis cases were found, with a prevalence rate of 1.28%. The distribution of the cases had spatial correlation (Moran's I=0.41, P<0.001). The most possible clustering areas indicated by spatial scanning analysis included Banma, Jiuzhi, Dari and Gande counties of Guoluo Tibetan Autonomous Prefecture (LLR=460.77, RR=9.20, P<0.001). The prevalence of echinococcosis in the pastoral areas was positively associated with the total annual precipitation (β=0.13, P=0.036), and negatively associated with population density (β=-1.36, P=0.019) and doctors/nurse ratio (β=-25.60, P=0.026). Conclusions: The distribution of echinococcosis cases in the pastoral areas of Qinghai in 2019 had spatial correlation, and the prevalence was affected by total annual precipitation, population density, and doctors/nurse ratio.
China/epidemiology*
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Cluster Analysis
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Echinococcosis/epidemiology*
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Epidemics
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Humans
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Prevalence
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Spatial Analysis
10.Analysis of the equity of health human resource allocation for echinococcosis control based on Gini index.
Jie XIAO ; Hong Mei YU ; Yi YANG ; Lei LIU ; Bo ZHONG ; Jun Sheng ZHAO
Chinese Journal of Schistosomiasis Control 2022;34(3):292-299
OBJECTIVE:
To analyze the current status and evaluate the equity of health human resource allocation for echinococcosis control in Ganzi Tibetan Autonomous Prefecture, Sichuan Province, so as to provide the empirical evidence for optimizing the health human resource allocation for echinococcosis control.
METHODS:
A questionnaire survey was performed to collect the numbers of health human sources for echinococcosis control, including health workers, healthcare professionals, certified/assistant physicians and registered nurses, per 1 000 permanent residents, per 1 000 m2, per 1 000 residents screened using Bmode ultrasonography and per 1 000 echinococcosis patients in two highly endemic counties and three lowly endemic counties in Ganzi Tibetan Autonomous Prefecture, Sichuan Province from 2016 to 2019. The equity of health human resource allocation for echinococcosis control was evaluated by permanent residents and geographical areas using Lorenz curve and Gini index in Ganzi Tibetan Autonomous Prefecture from 2016 to 2019.
RESULTS:
The numbers of health workers, healthcare professionals, certified/assistant physicians and registered nurses per 1 000 permanent residents, per 1 000 permanent residents, per 1 000 m2, per 1 000 residents screened using B-mode ultrasonography and per 1 000 echinococcosis patients were 0.99-, 1.06-, 1.78- and 1.88-fold; 3.38-, 3.67-, 6.00- and 6.00-fold; 1.64-, 1.74-, 3.22- and 3.18-fold; and 64.92-, 70.39-, 139.34- and 117.44-fold more in lowly endemic counties than in highly endemic countries in Ganzi Tibetan Autonomous Prefecture, Sichuan Province, 2019. The Gini indexes of health human resource allocation for echinococcosis control were 0.371 to 0.397 by permanent residents and 0.477 to 0.591 by geographical areas in Ganzi Tibetan Autonomous Prefecture from 2016 to 2019, and the Gini indexes (0.469 to 0.730) for allocation of certified/assistant physicians and registered nurses were both higher than those of health workers and healthcare professionals (0.302 to 0.451) by both permanent residents and geographical areas.
CONCLUSIONS
The health human resource allocation for echinococcosis control showed general equity by permanent residents and poor equity by geographical areas in Ganzi Tibetan Autonomous Prefecture, Sichuan Province from 2016 to 2019.
China/epidemiology*
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Echinococcosis/epidemiology*
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Health Personnel
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Health Workforce
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Humans
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Resource Allocation
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Ultrasonography