山南市棘球蚴病流行现状调查

摘要/Abstract

摘要：

目的了解西藏自治区山南市棘球蚴病流行现状。方法于2016年8-10月采用分层整群抽样方法,抽取山南市浪卡子、隆子、错那、扎囊、贡嘎、乃东、琼结、加查、桑日、曲松、洛扎等11个县（区）的调查村,每村抽取200名1岁以上常住居民进行B超检查,计算人群棘球蚴病检出率。采用内脏剖检法调查家畜棘球蚴感染情况。采集家犬粪样,ELISA检测犬粪棘球绦虫抗原情况。每个调查村随机抽取20名居民,每个县抽1所县小学的4~6年级学生（每个年级不少于50名）,进行棘球蚴病防治知识调查。结果 B超共调查10 287人,人群棘球蚴病检出率为1.00%（103/10 287）,以细粒棘球蚴病为主（100例,占97.09%）。11个县（区）均有棘球蚴病流行,检出率较高的为浪卡子县、隆子县和错那县,分别为2.03%（17/836）、1.81%（15/830）、1.43%（12/839）,最低的为洛扎县,为0.11%（1/931）;不同县（区）棘球蚴病检出率差异有统计学意义（χ² = 34.08,P < 0.05）。男性棘球蚴病检出率为0.84%（31/3 683）,女性检出率为1.09%（72/6 604）,两者差异无统计学意义（χ² = 1.47,P > 0.05）。不同年龄组中,以≥ 60和45~59岁组人群棘球蚴病检出率较高,分别为1.76%（30/1 708）和1.32%（44/3 333）;人群棘球蚴病检出率随着年龄的增长而升高（χ²_趋势 = 25.64,P < 0.01）。不同职业人群中,以牧民、农民和半农半牧民的棘球蚴病检出率较高,分别为1.81%（17/937）、1.04%（64/6 155）和1.03%（18/1 740）;不同职业人群棘球蚴病检出率间差异有统计学意义（χ² = 20.73,P < 0.05）。不同文化程度人群中,以文盲人群的棘球蚴病检出率最高,为1.26%（63/5 009）;人群棘球蚴病检出率随文化程度增高呈降低的趋势（χ²_趋势 = 7.63,P < 0.05）。不同生产类型地区人群中,以牧区人群的棘球蚴病检出率最高,为1.19%（20/1 682）;不同生产类型人群棘球蚴病检出率差异无统计学意义（χ² = 0.85,P > 0.05）。本次共检查家畜307头,棘球蚴感染检出率为11.40%（35/307）,其中曲松县的感染检出率最高,为85.00%（34/40）;不同地区家畜的棘球蚴感染检出率差异有统计学意义（χ² = 175.409,P < 0.01）。共采集犬粪932份,犬粪棘球绦虫抗原阳性率为6.87%（64/932）。其中,浪卡子县的犬粪棘球绦虫抗原阳性率最高,为27.50%（22/80）,错那县和隆子县次之,分别为13.75%（11/80）和7.50%（6/80）;不同县（区）犬粪抗原阳性率间差异有统计学意义（χ² = 61.41,P < 0.01）。人群棘球蚴病防治知识和行为合格率为51.63%(1 343/2 601),不同县（区）人群棘球蚴病认知合格率以桑日县和曲松县较高,分别为97.83%（225/230）和91.34%（211/231）;错那县和浪卡子县合格率较低,分别为10.24%（17/166）和18.55%（41/221）;不同县（区）合格率差异有统计学意义（χ² = 605.52,P < 0.05）。结论山南市浪卡子县、隆子县、错那县人群棘球蚴病检出率和犬粪棘球绦虫抗原阳性率较高、棘球蚴病防治知识认知合格率较低,应作为棘球蚴病重点防治地区。

关键词: 棘球蚴病, 犬粪, 抗原检测, 防治知识和行为, 流行现状, 山南市, 西藏自治区

Abstract:

Objective To investigate the prevalence of echinococcosis in Shannan City of Tibet Autonomous Region. Methods Villages were selected using stratified cluster sampling method from the counties of Langkazi, Longzi, Cuona, Zhanang, Gonggar, Qiongjie, Gacha, Sangri, Qusong, Luozha and Naidong District in Shannan City, from August to October, 2016. In each village, 200 residents aged > 1 year were selected for B ultrasound examination to calculate the prevalence of hydatid disease among the populations. Visceral necropsy was performed in livestock to investigate the status of hydatid infection. Feces from home-raised dogs were collected to examine Echinococcus antigen using ELISA method. Knowledge on echinococcosis control was surveyed in 20 randomly-selected residents in each village and no less than 50 students of each grade of grades 4-6 in a selected primary school in each county. Results Among the 10 287 persons receiving B ultrasound examination, 103 were detected to have hydatid cysts (1.00%), dominated by Echinococcus granulosus (97.09%). The 11 counties(districts) were all found with cases of hydatid disease, of which Langkazi County, Longzi County, and Cuona County had a high prevalence of 2.03% (17/836), 1.81% (15/830), and 1.43% (12/839), respectively, while Luozha County had the lowest prevalence of 0.11% (1/931). There was a significant difference in prevalence among the 11 counties/districts. There was no significant difference between males (0.84%, 31/3 683) and females (1.09%, 72/6 604) (χ² = 1.47, P > 0.05). The detection rate elevated with increased age (χ²_trend = 25.64, P < 0.01), being highest in the population groups of ≥ 60 years (1.76%, 30/1 708) and 45-59 years (1.32%, 44/3 333), and was significantly different among occupations (χ² = 20.73, P < 0.05), being highest in herdsmen (1.81%, 17/937), farmers (1.04%, 64/6 155), and semi-herdsman-and-farmers (1.03%, 18/1 740). The prevalence showed a trend of decrease with higher educational level (χ²_trend = 7.63, P < 0.05), being highest in those illiterates (1.26%, 63/5 009). The prevalence of hydatid disease was highest in pastoral area (1.19%, 20/1 682); there was no significant difference in the prevalence of hydatid disease among populations with different types of production (χ² = 0.85, P > 0.05). Among the 307 livestock examined, the prevalence of hydatid disease was 11.40% (35/307). There was a significant difference in livestock prevalence among the 11 counties(districts) (χ² = 175.409, P < 0.01), with Qusong County having the highest prevalence. Among the 932 fecal samples collected, the positive rate of Echinococcus antigen was 6.87% (64/932), with Langkazi County having the highest positive rate (27.50%, 22/80), followed by Cuona County (13.75%, 11/80)and Longzi County (7.50%, 6/80)[χ² = 61.41, P < 0.01, among the 11 counties(districts)]. The overall qualified rate on knowledge of echinococcosis control was 51.63% (1 343/2 601) in the residents. It was better in Sangri County (97.83%, 225/230) and Qusong County (91.34%, 211/231), and poor in Cuona County (10.24%, 17/166) and Langkazi County (18.55%, 41/221) [χ² = 605.52, P < 0.05, among the 11 counties(districts)]. Conclusion There is a high prevalence of hydatid disease in human populations, a high positive rate of Echinococcus antigen in dog feces, and poor knowledge on echinococcosis control in some counties of Shannan City, Tibet.

Key words: Echinococcosis, Dog feces, Antigen detection, Knowledge on control, Endemic situation, Shannan City, Tibet Autonomous Region

中图分类号:

R532.32

白玛央金, 伍卫平, 何瑞峰, 贡桑曲珍, 康珠益西, 索朗旺杰, 李斌. 山南市棘球蚴病流行现状调查[J]. 中国寄生虫学与寄生虫病杂志, 2018, 36(1): 63-68.

Yang-jin BAIMA, Wei-ping WU, Rui-feng HE, Qu-zhen GONGSANG, Yi-xi KANGZHU, Wang-jie SUOLANG, Bin LI. Prevalence of echinococcosis in Shannan City[J]. Chinese Journal of Parasitology and Parasitic Diseases, 2018, 36(1): 63-68.

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参考文献 21

[1]	Valour F, Khenifer S, Della-Schiava N, et al. Unusual growth rate during cystic echinococcosis[J]. Parasitol Int, 2014, 63(2): 275-277.
[2]	诸欣平, 苏川. 人体寄生虫学[M]. 8版. 北京: 人民卫生出版社, 2013: 144-150.
[3]	张梦媛,伍卫平. 国内外包虫病疾病负担研究进展[J]. 中国病原生物学杂志, 2017, 12(5): 473-475.
[4]	王国强, 于竞进, 王宇, 等. 全国包虫病流行情况调查报告[M]. 上海: 上海科学技术出版社, 2016: 10-11.
[5]	宋壮志, 郝慧霞, 姜晓峰, 等. 内蒙古自治区包虫病流行现况调查[J]. 首都公共卫生, 2017, 11(2): 53-57.
[6]	黎能金, 张霞, 邱海勇, 等. 2008年四川省阿坝藏族羌族自治州人与家畜棘球蚴病流行病学调查研究[J]. 中国循证医学杂志, 2010, 10(1): 26-29.
[7]	李焕军, 牛卫东. 甘肃省肃南县包虫病流行病学调查分析[J]. 疾病预防控制通报, 2012, 27(5): 24-27.
[8]	马霄, 王虎, 程时磊, 等. 青海省黄南藏族自治州棘球蚴病流行情况调查[J]. 中国寄生虫学与寄生虫病杂志, 2017, 35(4): 1-5.
[9]	赵建华, 吴向林, 马荣, 等. 宁夏2012年棘球蚴病流行现况调查分析[J]. 宁夏医学杂志, 2014, 36(4): 314-317.
[10]	买买提江·吾买尔, 阿迪力·司马义, 伊斯拉音·乌斯曼, 等. 2012年新疆维吾尔自治区人群棘球蚴病流行病学调查[J]. 中国寄生虫学与寄生虫病杂志, 2016, 34(3): 249-254.
[11]	何叶, 尹家祥. 棘球蚴病流行因素分析[J]. 中国热带医学, 2017, 17(4): 418-420.
[12]	温浩, 初向东, 王桂芝, 等. 新疆和布克赛尔蒙古自治县囊型包虫病危险因素分析[J]. 中华流行病学杂志, 2010, 31(3): 297-299.
[13]	Wang Q, Huang Y, Huang L, et al. Review of risk factors for human echinococcosis prevalence on the Qinghai-Tibet Plateau, China: a prospective for control options[J]. Infect Dis Poverty, 2014, 3: 3.
[14]	Wang JL, Li TT, Huang SY, et al.Major parasitic diseases of poverty in mainland China: perspectives for better control[J]. Infect Dis Poverty, 2015, 5: 67.
[15]	甫拉提·伊明江, 夏木西丁, 刘鸣涛, 等. 2009-2014年新疆温泉县棘球蚴病流行病学调查分析[J]. 中国寄生虫学与寄生虫病杂志, 2016, 34(4): 319-322.
[16]	杨俊克, 冯宇, 李凡, 等. 甘肃省7个藏族县(市)包虫病预防效果分析[J]. 医学动物防制, 2017, 33(3): 382-386.
[17]	刘辉, 肖宁, 杨诗杰, 等. 青藏高原地区犬棘球绦虫感染的流行病学特征[J]. 中国血吸虫病防治杂志, 2017, 29(2): 129-135.
[18]	詹芳, 史万贵, 刘全元, 等. 甘肃省部分地区家畜包虫病感染情况调查[J]. 中兽医医药杂志, 2015, 20(6): 72-75.
[19]	吴向林, 买买提江·吾买尔. 2012年宁夏家畜包虫病感染现况调查[J]. 宁夏医学杂志, 2015, 37(3): 277-281.
[20]	买买提江·吾买尔, 伊斯拉音·乌斯曼, 阿迪力·司马义, 等. 新疆维吾尔自治区动物棘球绦虫感染调查分析[J]. 中国寄生虫学与寄生虫病杂志, 2017, 35(2): 145-149.
[21]	马霄, 王虎, 张静宵, 等. 青海省果洛藏族自治州棘球蚴病和棘球绦虫病流行情况调查[J]. 中国寄生虫学与寄生虫病杂志, 2017, 35(4): 366-370.

特征 Feature		检查人数 No. exam′d	检出患病人数 No. patients	检出率/% Prevalence/%
地区 Region	浪卡子县Langkazi	836	17	2.03
地区 Region	隆子县Longzi	830	15	1.81
	错那县Cuona	839	12	1.43
	扎囊县Zhanang	800	10	1.25
	贡嘎县Gongga	841	10	1.19
	乃东区Naidong	1 703	20	1.17
	琼结县Qiongjie	978	7	0.72
	加查县Jiacha	856	5	0.58
	桑日县Sangri	816	3	0.37
	曲松县Qusong	857	3	0.35
	洛扎县Luozha	931	1	0.11
性别 Gender	男Male	3 683	31	0.84
性别 Gender	女Female	6 604	72	1.09
年龄组 Age group	1~14	1 295	3	0.23
	15~29	1 021	4	0.39
	30~44	2 930	22	0.75
	45~59	3 333	44	1.32
	≥ 60	1 708	30	1.76
职业 Occupation	学龄前儿童 Preschool children	592	0	0
	学生Students	760	3	0.39
	在业人员 Industry workers	103	1	0.97
	农民Farmers	6 155	64	1.04
	半农半牧民 Semi-herdsman-and-farmers	1 740	18	1.03
	牧民Herdsmen	937	17	1.81
文化程度 Education level	文盲Illiteracy	5 009	63	1.26
	小学Primary school	4 304	36	0.84
	初中 Junior middle school	712	3	0.42
	高中及以上 High school and above	262	1	0.38
生产类型 Production type	牧区Pastoral area	1 682	20	1.19
	半农半牧区 Semi-agricultural and semi-pastoral area	6 806	67	0.98
	农区 Agricaltural area	1 799	16	0.89

县（区） County(District)	调查人数 No. investigated	合格人数 No. qualified	合格率/% Qualified rate/%
浪卡子县Langkazi	221	41	18.55
错那县Cuona	166	17	10.24
隆子县Longzi	270	168	62.22
乃东区Naidong	318	132	41.51
琼结县Qiongjie	236	121	51.27
桑日县Sangri	230	225	97.83
扎囊县Zhanang	231	124	53.68
贡嘎县Gongga	240	92	38.33
加查县Jiacha	234	97	41.45
曲松县Qusong	231	211	91.34
洛扎县Luozha	230	115	50.00
合计Total	2 601	1 343	51.63