中国新疆维吾尔自治区喀什地区平原绿洲内脏利什曼病的空间分析
Spatial analysis of visceral leishmaniasis in the oases of the plains of Kashi Prefecture, Xinjiang Uygur Autonomous Region, China.
作者信息
Wang Li-Ying, Wu Wei-Ping, Fu Qing, Guan Ya-Yi, Han Shuai, Niu Yan-Lin, Tong Su-Xiang, Osman Israyil, Zhang Song, Kaisar Kaisar
机构信息
National Institute of Parasitic Diseases, Chinese Center for Disease Control and Prevention, WHO Collaborating Center for Tropical Diseases; Key Laboratory of Parasite and Vector Biology, MOH, Shanghai, 200025, China.
Center for Disease Control and Prevention of Xinjiang Uygur Autonomous Region, Urumqi, 830002, China.
出版信息
Parasit Vectors. 2016 Mar 15;9:148. doi: 10.1186/s13071-016-1430-8.
BACKGROUND
Kashi Prefecture of Xinjiang is one of the most seriously affected areas with anthroponotic visceral leishmaniasis in China. A better understanding of space distribution features in this area was needed to guide strategies to eliminate visceral leishmaniasis from highly endemic areas. We performed a spatial analysis using the data collected in Bosh Klum Township in Xinjiang China.
METHODS
Based on the report of endemic diseases between 1990 and 2005, three villages with a high number of visceral leishmaniasis cases in Bosh Klum Township were selected. We conducted a household survey to collect the baseline data of kala-azar patients using standard case definitions. The geographical information was recorded with GIS equipment. A binomial distribution fitting test, runs test, and Scan statistical analysis were used to assess the space distribution of the study area.
RESULTS
The result of the binomial distribution fitting test showed that the distribution of visceral leishmaniasis cases in local families was inconsistent (χ(2) = 53.23, P < 0.01). The results of runs test showed that the distribution of leishmaniasis infected families along the channel was not random in the group of more than five infected families. The proportion of this kind of group in all infected families was 63.84 % (113 of 177). In the Scan statistical analysis, spatial aggregation was analyzed by poisson model, which found 3 spatial distribution areas 1) Zone A was located in a center point of 76.153447°E, 39.528477°N within its 1.11 mile radius, where the cumulative life-incidence of leishmaniasis was 1.95 times as high as that in surrounding areas (P < 0.05); 2) Zone B was located in a center point of 76.111968°E, 39.531895°N within its 0.54 mile radius, where the cumulative life-incidence of leishmaniasis was 1.82 times as high as that in surrounding areas (P < 0.01); and 3) Zone C was located in a center point of 76.195427°E, 39.563835°N within its 0.68 mile radius, where the cumulative life-incidence of leishmaniasis was 1.31 times as high as that in surrounding areas (P < 0.05).
CONCLUSIONS
The spatial distribution of visceral leishmaniasis-infected families was clustered. Thus, the proper use of this finding would be an improvement in highly endemic areas, which could help identify the types of endemic areas and population at high risk and carry out appropriate measures to prevent and control VL in this area as well.
背景
新疆喀什地区是中国内脏利什曼病(黑热病)疫情最为严重的地区之一。为指导在高流行地区消除内脏利什曼病的策略,需要更好地了解该地区的空间分布特征。我们利用在中国新疆波什克鲁木乡收集的数据进行了空间分析。
方法
根据1990年至2005年的地方病报告,在波什克鲁木乡选择了3个内脏利什曼病病例数较多的村庄。我们采用标准病例定义进行了家庭调查,以收集黑热病患者的基线数据。使用地理信息系统(GIS)设备记录地理信息。采用二项分布拟合检验、游程检验和扫描统计分析来评估研究区域的空间分布。
结果
二项分布拟合检验结果显示,当地家庭中内脏利什曼病病例的分布不一致(χ(2) = 53.23,P < 0.01)。游程检验结果显示,在5个以上感染家庭的组中,利什曼病感染家庭沿渠道的分布不是随机的。这类组在所有感染家庭中的比例为63.84%(177个中的113个)。在扫描统计分析中,通过泊松模型分析空间聚集情况,发现3个空间分布区域:1)A区位于东经76.153447°、北纬39.528477°的中心点,其1.11英里半径范围内,利什曼病的累积终生发病率是周边地区的1.95倍(P < 0.05);2)B区位于东经76.111968°、北纬39.531895°的中心点,其0.54英里半径范围内,利什曼病的累积终生发病率是周边地区的1.82倍(P < 0.01);3)C区位于东经76.195427°、北纬39.563835°的中心点,其0.68英里半径范围内,利什曼病的累积终生发病率是周边地区的1.31倍(P < 0.05)。
结论
内脏利什曼病感染家庭的空间分布呈聚集性。因此,合理利用这一发现将有助于改善高流行地区的情况,有助于识别流行地区类型和高危人群,并在此地区采取适当的措施预防和控制内脏利什曼病。
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